Genetic analysis of peyer&#39;s patches and M cells and methods and compositions targeting peyer&#39;s patches and M cell receptors

ABSTRACT

Methods of increasing of or decreasing the levels of a protein in a PP cell; methods of increasing antigen, vaccine, DNA vaccine delivery to M cells, use of human serum albumin and other transport enhancing proteins to enhance oral drug delivery; use of calreticulin to enhance oral antigen delivery, use of other cell surface proteins, receptors, and transporters to enhance delivery to M cells of antigens or vaccine delivery vehicles, use of other cytoplasmic proteins to regulate intracellular trafficking and delivery to mucosal immune sampling and processing systems.

CROSS REFERENCE TO RELATED APPLICATIONS

[0001] This application claims the benefit of U.S. provisional application No. 60/281,387 filed Apr. 4, 2001, and U.S. provisional application No. 60/302,591 filed Jul. 2, 2001.

FIELD OF THE INVENTION

[0002] This invention relates to the genetic analysis of M cells and methods and compositions targeting M cell receptors.

BACKGROUND OF THE INVENTION

[0003] The Peyer's patch of the intestinal lining is a specialized tissue that allows the immune system to identify foreign antigens that require an immune response. It is also a potential pathway for orally delivered drugs to cross the intestinal barrier into the bloodstream. Central to these properties are M cells, which populate the patch's epithelial sheet. In view of the importance of the Peyer's patch and its M cells for the immune response and drug delivery, it is desirable to identify the cell proteins important for these phenomena. It is also desirable to increase the amounts of such important proteins in order to either facilitate the immune response and drug delivery or promote the conversion of non-M cells to M cells.

[0004] Similarly, it is important to identify and further decrease the levels of proteins whose absence or down-regulation in expression facilitates the immune response and drug delivery, or promotes the conversion of non-M cells to M cells.

BRIEF SUMMARY OF THE INVENTION

[0005] Increasing the Levels of a Protein or Antigen-Protein Combination

[0006] In a first general aspect, the invention is a method of increasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell a nucleic acid coding for a protein, wherein absent said increase, the levels of said protein or its mRNA is greater than in a non-Peyer's patch cell.

[0007] Peyer's patch cells of particular interest are M cells. The levels of a protein or its mRNA in Caco-2 cells co-cultured with Raji B cells are considered herein to be representative of such levels in a human Peyer's patch M cell. Monoculture Caco-2 cells are considered herein to be an appropriate non-Peyer's patch cell for purposes of comparison of such protein or mRNA levels.

[0008] The levels of a protein or its mRNA in rat Peyer's patch epithelial cells can be compared to their respective levels in a culture of rat normal gut epithelial cells. Absent evidence to the contrary, results of rat cells are assumed to be predictive of the results in human cells.

[0009] The presence of Increased levels of an mRNA, and therefore presumptively its protein, are indicated in the Table 2 and 3 by a ** a *, or an expression Fold Change greater than 1.00. Preferred are those indicated by a ** or an expression Fold Change greater than 2.00. Most highly preferred are those indicated by a **. The presence of decreased levels of an mRNA, and presumptively its protein, are indicated by a minus sign (−) or an expression Fold Change less than 1.00. Preferred targets are those indicated by a minus sign or an expression Fold Change less than 0.50.

[0010] In embodiments of particular interest, the protein is a receptor, a transporter, cell surface antigen, or cell adhesion molecule, especially a receptor. In other embodiments of particular interest, the protein is selected from the group consisting of nucleoside diphosphate kinases and member of the 14-3-3 family.

[0011] In the methods of greatest interest, the nucleic acid is delivered to a human cell. There are many delivery options, one of which is to deliver it by the oral route with the cell in a human, another to deliver it to a cell outside a human.

[0012] In an important variation of the method, a nucleic acid coding for a tumor antigen or foreign peptide is also delivered to the Peyer's patch cell. The purpose of this aspect of the invention is to improve the immune response to a tumor antigen or the foreign peptide. Normally, therefore, the foreign peptide will be that of a virus or infectious microorganism. A tumor antigen is one that is more abundant in a tumor cell than its normal counterpart.

[0013] Decreasing the Levels of a Protein

[0014] Another general aspect of the invention is a method of decreasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell an anti-sense nucleic acid molecule, a ribozyme nucleic acid molecule, an RNA interference (RNAi) nucleic acid molecule, said anti-sense, ribozyme or RNAi nucleic acid being complementary to a sequence of at least 10 nucleotides of the mRNA for said protein, wherein absent said anti-sense nucleic acid molecule, ribozyme or RNAi nucleic acid, the levels of said protein or its mRNA are less than in a non-Peyer's patch cell. More preferably the anti-sense nucleic acid is complementary to a sequence of at least 15 nucleotides of the mRNA of the protein, and most preferably to a sequence of at least 30 nucleotides of the mRNA of the protein. It is preferred that the protein is coded for by a gene with an expression Fold Change denoted by a minus sign (−) or an expression Fold Change less than 0.50.

[0015] In a particular embodiment, the latter method comprises delivering to said cell an anti-sense nucleic acid molecules, a ribozyme or RNAi nucleic acid molecules, said anti-sense, ribozyme or RNAi nucleic acid being complementary to a sequence of at least 10 nucleotides of the mRNA for at least 5 different proteins, wherein absent said anti-sense, ribozyme or RNAi nucleic acid molecule, the levels of each of said proteins or its mRNA are less than in a non-Peyer's patch cell.

[0016] Alternatively described, the latter invention is a method of deceasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell an anti-sense nucleic acid molecule, ribozyme or RNAi nucleic acid molecules, said anti-sense, ribozyme or RNAi nucleic acid forming a double-stranded molecule with part or all of the mRNA for said protein, wherein absent said anti-sense, ribozyme or RNAi nucleic acid molecule, the levels of said protein or its mRNA are less than in a non-Peyer's patch cell.

[0017] Cells of the Invention

[0018] A human or rat cell to which any of the above methods in this Brief Summary of the Invention section has been applied, or the progeny of said cell, is also an aspect of the present invention.

[0019] Delivery Enhancement using a Targeting Ligand which Targets a Receptor, a Transporter or a Cell-Surface Molecule Expressed on Surface of M Cells or Pever's Patch Tissue Cells

[0020] In another general aspect, the invention is a method of targeting an antigen or a drug delivery vehicle containing an antigen, or a drug delivery vehicle containing an antigen and adjuvant, or a drug delivery vehicle containing a drug, or a viral vector, or a bacterio-phage vector such as, but without limitation M13 or Fd, or a bacterial vector or a gene delivery vector expressing an antigen of interest, or a viral vector, or a bacterio-phage vector such as, but without limitation M13 or Fd, or a bacterial vector or a gene delivery vector expressing a gene product(s) to M cells of Peyer's patch tissue, by targeted delivery to receptors, or to transporters or to other cell surface proteins which are found to be expressed on the cell surface of M cells or other cells found within Peyer's patch tissue, or which are found to be differentially expressed on these cells. Said gene product(s) coded by the viral vector, or a bacterio-phage vector such as, but without limitation M13 or Fd, or a bacterial vector or a gene delivery vector regulate the function of Peyer's patch cells to M cell phenotype or regulate M cell function to increase their immuno-surveillance or antigen presentation to the mucosal immune system.

[0021] In one embodiment, a phage display library such as M13 or Fd which express random peptide sequences on the surface of the phage, coded by example gene III or gene VII of M13 or Fd bacteriophage, can be screened by in vivo panning against example Peyer's patch tissue found in vivo in the GIT, in order to discover and identify phage or targeting ligands which specifically target M cells or Peyer's patch tissue in vivo in the GIT; such phage which target M cells and Peyer's patch tissue can subsequently be genetically engineered to encode a gene or genes of interest such as a DNA vaccine gene, a gene coding for an antigen of interest together with gene(s) which modify M cell function and which enhance the immuno-responsiveness of the M cells to the antigen or DNA vaccine product coded by the genetically engineered bacteriophage genome.

[0022] Delivery Enhancement using Transport Enhancing Proteins

[0023] Another invention disclosed herein is a method for enhancing transport of a drug through the gastrointestinal tract, said method comprising orally administering said drug in a composition that comprises a transport-enhancing protein, said transport-enhancing protein selected from the group consisting of human serum albumin (HSA), clusterin, T-cell surface glycoprotein CD5 precursor, HSP84, and Ca²⁺-dependant phospholipase A₂ (Ca2+ pla2), or a homolog that has at least 80% amino acid identity with said transport-enhancing protein over a length of said transport-enhancing protein identical to the homolog. In a preferred embodiment, the homolog has at least 90% amino acid identity with the transport-enhancing protein over a length of the transport-enhancing protein identical to the homolog. In a more preferred embodiment, the transport-enhancing protein is selected from the group consisting of human serum albumin (HSA), clusterin, T-cell surface glycoprotein CD5 precursor, HSP84, and Ca2+ pla2.

[0024] Method of Delivering a Vaccine to a Target Cell

[0025] Further invention disclosed herein is a method of delivering a vaccine to a target cell, said method comprising utilizing as the target cell a Peyer's patch cell in which a protein or mRNA is upregulated.

[0026] Method of Decreasing the Levels of a Protein

[0027] Yet, another invention disclosed herein is a method of decreasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell a DNA molecule coding for an anti-sense nucleic acid molecule, a ribozyme nucleic acid molecule, an RNA interference nucleic acid molecule (RNAi), said anti-sense molecule, ribozyme or RNAi nucleic acid being complementary to a sequence of at least 10 nucleotides of the mRNA for said protein, wherein absent said anti-sense molecule, ribozyme or RNAi nucleic acid, the levels of said protein or its mRNA is less than in a non-Peyer's patch cell.

[0028] Method of Increasing the Extent to which the Function of a Protein is Carried Out

[0029] Another invention disclosed herein is a method of increasing the extent to which the function of a protein is carried out in a Peyer's patch cell, said method comprising delivering to said cell a nucleic acid coding for said protein, wherein absent said delivery, the level of said protein or its mRNA is greater in said cell than in a non-Peyer's patch cell.

[0030] Chimeric Protein that Comprises Two or More Segments, each of said Segments Enhancing a Different Step in the Peptide Transport Process

[0031] Another invention disclosed herein is a chimeric protein that comprises two or more segments, each of said segments enhancing a different step in the peptide transport process, said steps selected from the group consisting of binding to a cell such as an M cell, transporting the peptide into the cell such as an M cell, presenting the chimeric protein to a protein processing pathway within a cell such as an M cell in order to maximise processing in a way to optimize presentation of the processed chimeric peptides to epitopes suitable for immune activation, transporting the peptide through the cell such as an M cell, and transporting the peptide out of the cell such as an M cell to an underlying immune cell such as a B-cell or T-cell.

[0032] Delivery Enhancement using Calreticulin and other Proteins

[0033] Another method disclosed herein is a method to facilitate intracellular trafficking of an antigen that has been orally delivered by itself or as part of a composition or particle, said method comprising administering calreticulin.

[0034] Related to the latter invention is a chimeric protein comprising the amino acid sequences for (1) calreticulin, rab family proteins and and/or a ribosomal protein, and (2) a second polypeptide. Also related is a method of administering a polypeptide, where said polypeptide is part of the chimeric protein and wherein said chimeric protein is orally administered.

DETAILED DESCRIPTION OF THE INVENTION

[0035] The present invention and the related research were intended to improve targeted vaccine delivery and targeted gene delivery methods, especially as they relate to Peyer's patch cells. In significant part, this was achieved by identifying proteins whose up-regulation or down-regulation would indicate their possible or probable role in cellular functions important to vaccine and or drug delivery. In some cases, such as receptors, the proteins are important from the point of view of cell specificity during the delivery process. In many cases, the proteins have functions that are important after the vaccine or drug enter the cell.

[0036] Closely related to those inventions and research goals, was the concept that in M cells there would be proteins that, as compared to M cell precursors, were up-regulated or down-regulated. The identification of such proteins provides a strategy for altering M cell precursors so as to shift their phenotype toward that of M cells.

[0037] As indicated, one aim of the research related to the present invention was to determine if there were detectable differences in protein/gene expression between: (1) Peyer's patch (PP) and non-Peyer's patch (NPP) rat gastrointestinal tract (GIT) tissue and (2) M cell enriched follicle-associated epithelium of Peyer's patch (PP FAE) tissue. This was done with a view to finding novel or highly expressed ligand targeting sites on the Peyer's patch or M cells as well as other protein relevant to the delivery of drugs across the GIT.

[0038] This invention is based in part on the discovery of over-expression of a range of genes in Peyer's patch (PP) tissue from rat small intestine in comparison to normal non-Peyer's patch (NPP) small intestine tissue.

[0039] This invention is also based on the discovery of over-expressed genes in co-cultures of Caco-2 cells. The idea was to use genetic mapping of the M cell co-culture, e.g. Caco-2 cells co-cultured with Raji cells versus a monolayer of Caco-2 cells, to ascertain the differences in epithelial gene expression between M cells and enterocytes. It became immediately apparent that some of these gene products are going to be unique apical membrane proteins (e.g. receptors, transporters, adhesion proteins) in M cells. By examining the differences between M cells and enterocytes in vitro and in vivo, one could identify key targets that can be used to generate M cell specific ligands. These ligands can then be used for targeting oral vaccines in particles.

[0040] The identification of over-expressed ribosomal proteins or homologues/related proteins thereof indicates a generally higher protein turnover or protein synthesis capacity in PPs or a possible role for such ribosomal proteins (or homologues thereof) in other cellular functions such as protein chaperoning, endocytosis, trafficking of proteins/antigens/particulates/viruses uptaken from the lumen of the gastrointestinal tract (GIT) and/or from the M cells to underlying immune cells, antigen presenting cells, dendritic cells, B cells, other cell types.

[0041] The identification of a series of transcription factors (TFs) that are over-expressed in PP tissue versus the control enterocyte GIT tissue is considered herein to indicate a role for such TFs in the development of M cell phenotype, in conferring M cell phenotype and/or in programming M cells to prime other downstream cellular events leading to a better or more efficacious immune outcome following antigen presentation. The co-delivery of genes coding for such TFs with either antigens themselves and/or with gene(s) coding for antigen(s) of question to M cells and/or PP tissue following oral administration provides the basis for a more efficacious and pronounced immune outcome when the TF coding genes are key or vital for driving M cells/PP tissue to an effective immune outcome.

[0042] The general over-expression of a number of proteins species in PPs versus NPPs, both membrane and cytosolic-associated was also determined by a novel technique of enrichment and M cell selection following enrichment of the follicle-associated epithelium (FAE) of Peyer's patch (PP FAE) by ethylene-diamine tetra-acetic acid (EDTA) extraction and recovery of M cells/PP FAE. Such novel or differentially expressed proteins have significant implications for the use of this protein expression information and methods of selection/enrichment of M cells/PP tissue for the targeting of drug/vaccine uptake to Peyer's patches. Among proteins found to be over expressed in rat PP tissue following this enrichment technique was the human serum albumin homolog which is considered here to have implications for drug/cargo transport from the GIT either into oracross intestinal tissue including PP tissue and systemic delivery of same to the blood.

Incorporation by Reference

[0043] All references cited herein are incorporated herein by reference in their entireties.

[0044] All GenBank records specified bytheiraccession numbers are incorporated herein by their entireties.

[0045] The GenBank amino acid sequences and nucleotide sequences specified by their GenBank ID number are incorporated by reference herein. All GenBank records corresponding to those ID numbers are incorporated herein in their entirety. Absent a date specifying the date of the record, the date of the record is the filing date of this application.

[0046] Many of GenBank sequences specified by their GenBank ID numbers are reproduced herein in the section “Amino acid sequences and nucleotide sequences corresponding to selected GenBank ID numbers.” The CDS line refers to the exon(s).

[0047] Any GenBank ID numbers specified herein, absent a decimal point and an integer following that decimal point, is for GenBank version 1 of that sequence. Any GenBank ID number that has a decimal point and an integer following it is the GenBank version number.

[0048] The invention will be illustrated in more details with reference to the following Examples, but it should be understood that the present invention is not deemed to be limited thereto.

EXAMPLES Example 1 Preparation of Cytosolic (S100) and Membrane (P100) Proteins from Rat PP and NPP Tissues

[0049] Protein samples were prepared from PP and NPP tissue extracted from freshly sacrificed rats. These protein samples underwent electrophoresis on denatured SDS-PAGE gels and were stained using two different standard proteins Commassie Blue stains. Subsequently, fresh PP and NPP tissue samples were fractionated into cytosolic (S100) and membrane (P100) proteins and these samples were also electrophoresed on SDS-PAGE in order to compare S100 and P100 fractions in both PP and NPP tissues.

Example 2 Preparation of GIT Tissue or Co-Culture Cell Membrane (P100) and Cytosolic (S 100) Fractions

[0050] The fractions were prepared using the following procedure:

[0051] 1. Scrape the co-culture cells into PBS and pool cells into a universal.

[0052] 2. Centrifuge the cells for 5 minutes at 1,500 rpm.

[0053] 3. Remove the supernatant.

[0054] 4. Re-suspend the cell pellet in 3 volumes of ice-cold HED buffer, and allow it to swell for 5 minutes on ice.

[0055] 5. Homogenize the cells for 30 seconds.

[0056] 6. Centrifuge the homogenate in hard walled tubes at 40,000 rpm for 45 minutes at 4° C. in a Beckmann Ultra Centrifuge (rotor Ti90).

[0057] 7. Remove the supernatant (S 100) and re-suspend the pellet (P100) in 3 volumes of HEDG buffer, before centrifugation again at 1000 rpm for 2 min. Remove the supernatant and store on ice. Repeat the procedure and add the second supernatant to the first.

[0058] 8. Determine the protein concentration (using the Bio-Rad protein assay).

[0059] 9. All fractions were stored at −80° C.

[0060] The following reagents were used in the above methods: HED buffer (20 mM HEPES pH 7.67), 1 mM EGTA, 0.5 mM dithiothreitol, 1 mM phenylmethylsulphonyl fluoride (PMSF): HEPES (pH to 7.67) 0.5206 g EGTA 38.04 mg Dithiothreitol 7.71 mg Distilled water to 100 ml

[0061] 10 μl PMSF stock solution was added to 1 ml of buffer prior to use.

[0062] HEDG buffer (the same as HED buffer plus 100 mM NaCl, 10% glycerol) NaCl 0.584 g Glycerol 11.4 ml HEPES (pH to 7.67) 0.5206 g EGTA 38.04 mg Dithiothreitol 7.71 mg Distilled water to 100 ml

[0063] 10μl PMSF stock solution was added to 1 ml of buffer prior to use.

[0064] PMSF(100 mM) stock solution PMSF 17.42 mg Isopropanol

Example 3 Isolation of Epithelial Sheaths from Rat Pever's Patch and Non-Pever's Patch Tissue

[0065] The M cell is a very elusive cell type, at least in terms of isolating a purified population. Previous attempts have found that when M cells are separated and purified and put into culture they very quickly lose their characteristic morhphology and probably gene/protein expression profile. In many cases this is due to the length of time taken to isolate and purify the cells from the very homogenous mix of cells in a Peyer's patch. We desired a quick and routine method to enrich for M cells is Peyer's patch samples. M cells are only contained in the epithelium of Peyer's patches, the so-called follicle associated epithelium (FAE), while underneath the epithelial layer lays all the B and T lymphocytes, dendritic cells etc. So by isolating the epithelium away from the rest of the Peyer's patch dome, we are greatly enriching it for the M cell population. Previously, treatment of mouse intestinal tissue with EDTA was shown to cause separation of the epithelium as a sheet from the rest of the tissue, allowing for it's specific isolation (Bjerknes M and Cheng H (1981). Methods for the isolation of intact epithelium from the mouse intestine. Anat. Rec., (199):565). This method was adapted for the isolation of FAE from rat Peyer's patch. Control epithelium from normal gut tissue (no Peyer's patches) was used as a control.

[0066] Epithelial sheaths were prepared using EDTA method comprising the following steps:

[0067] 1. Sacrifice the rats (Wistar) by cervical dislocation.

[0068] 2. Remove the entire length of the GIT tract from (but not including) the stomach to the caecum and place in a dish of PBS (at room temperature).

[0069] 3. Excise the Peyer's patches, taking care to remove as much normal non-PP GI tissue as is visible. Rinse briefly in PBS.

[0070] 4. Also take samples of normal non-Peyer's (N PP) tissue close to the patches, rinse in PBS and treat as for the PPs (steps 5-9,11-12).

[0071] 5. Pool the PP's from the entire GI section in Hank's Buffered Saline Solution (HBSS, Gibco Life Sciences) with 0.011 M glucose and 25 mM Hepes.

[0072] 6. When pooling is complete, place PP sections into 15-20 ml of HBSS (with 0.011M glucose and 25 mM Hepes) along with 40 mM of EDTA into a small conical flask.

[0073] 7. Add a stirrer bar to the flask, place on a stirring plate and spin the PP's for 15 min at RT.

[0074] 8. After 15 minutes pipette the PP solution vigorously with a wide-bore 3 ml plastic pasteur pipette.

[0075] 9. Strain the supernatant through a 100 micron nylon cell strainer (from FALCON™, 352360).

[0076] 10. Move the filter to another 50 ml tube and wash out the residue material on the filter with HBSS (with 0.011M glucose and 25 mM Hepes, no EDTA). This residue contains the majority of the PP dome epithelial sheaths.

[0077] 11. Centrifuge the PP residue material at 3000 rpm for 5 min. Also centrifuge the NPP tissue supernatant at 3000 rpm for 5 min.

[0078] 12. Snap freeze the cell pellets and store at −70° C.

Example 4 Identification of Over-Expressed Proteins in Enriched M cells/PP FAE Cells

[0079] Epithelial cell layers of Wistar rat PP (representing enriched M cells/PP FAE cells) and normal villi were extracted using EDTA as described in Example 3 above. Epithelial layers from numerous Patches and rats were pooled and the protein isolated into either cytosolic and membrane fractions following centrifugal separation. 2D gel electrophoresis (between isoelectric points pH 3.5 to 10) was performed on 50 μg of each fraction, wherein the gels were silver stained. The gels were overlaid, and numerous differentially expressed proteins between the membrane fractions of PP and normal villi epithelia were observed. Further, protein samples underwent a second 2D gel electrophoresis, this time the gel was stained with a “special” silver stain, that did not inhibit the mass spectrometry analysis of individual spots. The differentially expressed proteins were identified and highlighted by gel overlay.

[0080] Thirty-seven protein spots were identified that were increased in PP over villi epithelial membrane fractions. Of these, 16 spots (the most highly over-expressed) were chosen for mass spectrometry analysis. The spots were digested with endoproteinase Lys-C/trypsin (8:1 ratio) and analyzed on a MALDI-MS. The spots, however, gave very poor spectra and only 4 of the 16 were identifiable. These were:

[0081] serum albumin;

[0082] calreticulin;

[0083] 14-3-3 zeta (tentative ID; mouse); and

[0084] nucleoside diphosphate kinase B.

[0085] One protein showed homologyto human serum albumin (HSA). Work byA. Fasano at Maryland had suggested that Zonulin, the human homologue of ZOT, showed sequence homology to human serum albumin (85% homology across the limited sequence available from the Fasano's work). Given our finding that a protein differentially expressed in rat PP tissue shows homology to HSA, we propose that HSA (or a homologue or splice variant thereof) is involved in drug transport in the GIT, in particular Peyer's patch tissue of the GIT.

[0086] Calreticulin is a 46-kDa Ca (2+)-binding chaperone of the endoplasmic reticulum membranes. This protein binds Ca (2+) with high capacity, affects intracellular Ca (2+) homeostasis, and functions as a lectin-like chaperone. Given the over-abundance of expression of this protein in epithelial layers selected from PP tissue and the role of this protein as a lectin-like chaperone, we propose that this protein is a valuable protein target to aid or facilitate the intracellular trafficking of antigens or antigens in particles following targeted delivery to M cells or PP tissue. Proteins comprising chimerics of calreticulin plus a polypeptide with an antigen of choice would therefore prove valuable in that regard.

[0087] Members of the 14-3-3 protein family have been identified as regulatory elements in intracellular signaling pathways and cell cycle control. There had been reports that 14-3-3 protein can be used as a marker for Creutzfeldt-Jacob Disease (CJD) in cerebrospinal fluid (CSF). It is proposed that this protein or the gene coding for it is valuable in the control of the M cell phenotype, and as a result it would be advantageous to co-deliver that protein or gene with a protein, antigen, or DNA vaccine.

[0088] Nucleoside diphosphate kinases (NDP kinases) form a family of oligomeric enzymes present in all organisms. Eukaryotic NDP kinases are hexamers composed of identical subunits (approximately 17 kDa). A distinctive property of human NDPK-B is its ability to stimulate gene transcription. This property is independent of its catalytic activity and is possibly related to the role of this protein in cellular events including differentiation and tumor metastasis. Given our discovery of the increased expression of nucleoside diphosphate kinase B in M cell enriched PP FAE cells, we propose the importance of this protein in determining or controlling M cell phenotype, in M cell development, and optimal activation or priming of the mucosal immune system.

Example 5 Gene Expression Analysis of Rat PP and NPP Tissue Samples

[0089] In addition to the proteomic studies highlighted above, PP and NPP tissue samples were sent for gene expression analysis to CLONTECH Laboratories Inc. (a division of Becton Dickinson (BD) Biosciences) who then extracted RNA from the tissues to probe on ATLAS™1.2 rat arrays. The data containing differential expression levels of 1,200 genes many of which are presented in Table 1 below. The data show over-expression of many proteins. In Table 1, over-expressed genes are shown in bold and italicized.

[0090] In Table 1, “N/C” means not calculated due to manually-determined inconsistencies in one or both spots, and “?” means low confidence level (small difference).

[0091] Also, over-expressed genes from Table 1 that had a fold change above 0, as well as over-expressed genes are shown in Table 2 below with corresponding GenBank accession numbers for rat and human origin.

[0092] Based on the results (ratio PP/Normal epithelial tissue) in Table 1, the following proteins are of the particular interest: clusterin, T-cell surface glycoprotein CD5 precursor, HSP84, Ca2+-dependant phospholipase A2 precursor, ribosomal proteins S12, S11, L12, L11, S29, S19, L21, L19, L13, L44, and L36A.

[0093] In addition a series of genes coding for different TFs was noted including the following:

[0094] Jun-B; c-jun related TF,

[0095] Jun-D; c-jun related TF,

[0096] STAT 3-signal transducer and activator of transcription 3,

[0097] NF-kappaβ Tf p105 subunit,

[0098] CREB active TF,

[0099] New england deaconess TF,

[0100] C-jun proto-oncogene; TF AP-1; RJG-9,

[0101] S-myc proto-oncogene; myc related,

[0102] Nm23-M2; nucleoside diphosphate kinase B; metastasis reducing protein,

[0103] NDK-B; nucleoside diphosphate kinase B; metastasis reducing protein,

[0104] Lim-2; embryonic motor neuron topographic organizer; homeobox protein LIM-2, and

[0105] C-est-I proto-oncogene; p54.

[0106] TF coding genes such as these are considered here to be important in the development of M cell phenotype and in priming the immune system. Their co-delivery or co-targeting with DNA vaccine genes and/or with vaccines is expected to enhance activation of mucosal immunity to the co-delivered DNA vaccine and/or antigen by virtue of their priming of the cells to give a better mucosal immunity outcome. TABLE 1 GENE EXPRESSION DATA FROM ATLAS 1.2 RAT ARRAY ANALYSIS Spot Intensity # coordinate PP1 NE1 RATIO Difference GENE 1 A03c 38 6 0.16 −32 T-cell surface glycoprotein CD5 precursor; lymphocyte glycoprotein LY1 2 A03g 31 57 1.84 26 CD4 homologue, W3/25 antigen 3 A04f 20 72 3.60 52 signal transducer CD24 precursor; heat stable antigen (HSA); nectadrin 4 A04i 17 40 2.35 23 CD2, membrane glycoprotein, T-cell marker 5 A04i 8 34 4.25 26 scavenger receptor class B type I 6 A04m 16 31 1.94 15 SR13 myelin protein, peripheral myelin protein 22 (PMP-22), CD25 protein 7 A05a 4 17 4.25 13 glutamyl aminopeptidase A 8 A05i 52 29 0.56 −23 I-kB (I-kappa B) alpha chain; RL/IF-1 gene product 9 A05m 6 18 3.00 12 interferon regulatory factor 1 (IRF1) 10 A06a 7 21 3.00 14 LIM domain protein CLP36, homologous to rat RIL 11 A06c 152 78 0.51 −74 Gax. growth-arrest-specific protein 12 A07c 42 24 0.57 −18 G1/S-specific cyclin D3 (CCND3) 13 A07l 17 3 0.18 −14 M-phase inducer phosphatase 2 (MPI2); cell division control protein 25 B (CDC25B) 14 A07n 37 20 0.54 −17 p55cdc; cell division control protein 20 15 A08e 56 24 0.43 −32 prothymosin-alpha (PTMA) 16 A08n 32 105 3.28 73 antigen peptide transporter 1 17 A09g 13 36 2.77 23 proteasome delta subunit precursor; macropain delta; multicatalytic endopeptidase complex delta; 18 A09i 15 27 1.80 12 proteasome component C13 precursor; macropain subunit C13; multicatalytic endopeptidase 19 A09j 341 893 2.62 552 apolipoprotein A-I precursor (APO-AI) 20 A09k 72 723 10.04 651 apolipoprotein A-IV precursor (APO-AIV) 21 A11l 1 13 13.00 12 ErbB3 EGF receptor-related proto-oncogene; HER3 22 A12c 21 48 2.29 27 A-raf proto-oncogene 23 A12i 19 45 2.37 26 rac-alpha serine/threonine kinase (RAC-PK-alpha); protein kinase B (PKB), AKT1 24 A13k 208 60 0.29 −148 HSP84; HSP90-beta; heat shock 90 kD protein 25 A14c 7 38 5.43 31 glutathione S-transferase Ya subunit (GST YA); liqandin subunit 1 alpha 26 A14d 65 162 2.49 97 microsomal glutathione S-transferase (GST12; MGST1) 27 A14e 94 160 1.70 66 glutathione S-transferase Yb subunit; GST subunit 4 mu (GSTM2) 28 A14q 129 265 2.05 136 glutathione S-transferase P subunit; GST subunit 7 pi (GST7-7) 29 A14n 7 19 2.71 12 NADPH-cytochrome P450 reductase (CPR); POR 30 B01h 121 207 1.71 86 copper-zinc-containing superoxide dismutase 1 (Cu—Zn SOD1) 31 B02f 4 25 6.25 21 fructose (glucose) transporter 32 B05k 13 36 2.77 23 sodium channel SCNB2, beta 2 subunit, brain 33 B06d 28 12 0.43 −16 potassium channel, inward rectifier 11 34 B07k 2 18 9.00 16 proton-coupled dipeptide cotransporter 35 B08b 59 181 3.07 122 fibroblast ADP/ATP carrier protein; ADP/ATP translocase 2, adenine nucleotide translocator 2 36 B09i 7 43 6.14 36 sodium-glucose cotransporter 1 37 B09l 40 115 2.88 75 Na+/K+ ATPase alpha 1 subunit 38 B09n 43 78 1.81 35 vacuolar ATP synthase 16-kDa proteolipid subunit, ATP6C; MVP; ATPL 39 B10b 10 78 7.80 68 sodium/potassium-transporting ATPase beta 1 subunit (ATP1B1) 40 B12e 10 68 6.80 58 urate transporter/channel 41 B12f 143 297 2.08 154 ATP synthase lipid-binding protein P1 precursor, ATPase protein 9, ATP5G1 42 B12q 21 112 5.33 91 ATP synthase, subunit c, P2 gene 43 B12m 18 38 2.11 20 annexin IV(ANX4); lipocortin IV;36-kDa zymogen granule membrane-associated protein (ZAP36) 44 B13f 37 127 3.43 90 lipocortin 2 45 B14d 59 326 5.53 267 fatty acid-binding protein (liver; L-FABP); Z-protein; squalene - & sterol-carrier protein (SCP); P14 46 B14f 49 157 3.20 108 fatty acid-binding protein (intestinal; I-FABP; FABPI) 47 C02f 19 78 4.11 59 fructose-bisphosphate aldolase B (ALDOB); liver-type aldolase 48 C02g 37 76 2.05 39 fructose-bisphosphate aldolase A (ALDOA); muscle-type aldolase 49 C02j 15 30 2.00 15 testis fructose-6-phosphate 2-kinase/fructose 2,6-biphosphate (testis 6PF-2-K/fru-2,6-P2ase); 6- 50 C02n 604 1123 1.86 519 cytochrome c oxidase subunit Vb & Vla precursor (COX5B) 51 C03a 9 20 2.22 11 cytochrome B5 (CYB5) 52 C03e 65 138 2.12 73 mitochondrial hydroxymethylglutaryl-CoA synthase precursor (HMG-CoA synthase); 3-hydroxy-3- 53 C03f 177 760 4.29 583 cytochrome oxidase, subunit I, Sertoli cells 54 C03q 27 47 1.74 20 ATPase, subunit F, vacuolar (vatf) 55 C03i 641 1087 1.70 446 cvtochrome c oxidase, subunit IV, mitochondrial 56 C03l 46 147 3.20 101 cytochrome c oxidase, subunit Va, mitochondrial 57 C03l 317 180 0.57 −137 cytochrome c oxidase, subunit VIIIh 58 C04b 189 351 1.86 162 mitochondrial ATP synthase beta subunit precursor (ATP5B) 59 C04q 23 127 5.52 104 creatine kinase, ubiquitous, mitochondrial 60 C06c 6 52 8.67 46 fatty acid amide hydrolase 61 C06j 73 175 2.40 102 cytochrome P450 17 (CYP17), P450C17, CYPXVII, steroid 17-alpha-hydroxylase/17,20 lyase 62 C07i 9 51 5.67 42 cytochrome P-450 4F1, hepatic tumour 63 C07l 19 39 2.05 20 cytochrome P-450 4F4 64 C08a 17 33 1.94 16 cytochrome P-450 4F5 65 C08l 8 24 3.00 16 adenylate kinase 3 66 C08m 32 65 2.03 33 cAMP-dependent protein kinase type I-alpha regulatory chain 67 C09e 7 30 4.29 23 glutathione synthetase (GSH synthetase; GSH-S; GSS). glutathione synthase 68 C10e 25 10 0.40 −15 carbonic anhydrase 4 69 C10j 19 9 0.47 −10 alkaline phosphatase 70 C10k 21 5 0.24 −16 dopamine beta-hydroxylase 71 C10l 29 11 0.38 −18 acetylcholinesterase, T subunit, glycolipid-anchored 72 C10m 228 445 1.95 217 NADP+ alcohol dehydrogenase; aldehyde reductase (ALR); 3-dG-reducing enzyme 73 C11b 19 33 1.74 14 calcium bindinq protein 2 (CABP2), endoplasmic reticulum stress protein (ERP72); protein disulfide 74 C11d 97 55 0.57 −42 60S ribosomal protein L44; L36A 75 C11e 1728 527 0.30 −1201 40S ribosomal protein S12 76 C11q 400 179 0.45 −221 ribosomal protein L11 77 C11h 670 355 0.53 −315 ribosomal protein L13 78 C11i 967 424 0.44 −543 ribosomal protein L12 79 C11k 812 413 0.51 −399 S19; 40S ribosomal protein S19 80 C11l 554 286 0.52 −268 60S ribosomal protein L21 81 C11m 1405 737 0.52 −668 60S ribosomal protein L19 (RPL19) 82 C11n 315 109 0.35 −206 40S ribosomal protein S11 83 C12b 158 48 0.30 −110 Fte-1; putative v-fos transformation effector protein; yeast mitochondrial protein import homolog; 40S 84 C12d 1451 787 0.54 −664 elongation factor 2 (EF2) 85 C12l 346 10 0.03 −336 clusterin (CLU); testosterone-repressed prostate message 2 (TRPM2); apolipoprotein J; sulfated 86 C12m 14 0 Undefined −14 activator of apoptosis harakiri (HRK); neuronal death protein 5 (DP5); BID3 87 C13c 19 5 0.26 −14 SURVIVAL OF MOTOR NEURON(RSMN) 88 D08i 6 17 2.83 11 retinoid X receptor alpha (RXR alpha; RXRA); NR2B1 89 D12c 6 18 3.00 12 INOSITOL TRIPHOSPHATE RECEPTOR SUBTYPE 3 90 E01m 10 50 5.00 40 neurotrophin 3 precursor (NTF3); neurotrophic factor, HDNF, nerve growth factor 2 (NGF2) 91 E02c 19 8 0.42 −11 transforming growth factor, beta 1 92 E03k 40 185 4.63 145 C-type natriuretic peptide precursor (CNP; NPPC) 93 E04b 17 7 0.41 −10 thyroid stimulating hormone, beta 94 E07c 33 15 0.45 −18 c-src-kinase (CSK) & negative regulator; tyrosine-protein kinase 95 E08a 105 249 2.37 144 extracellular signal-regulated kinase 1 (ERK1); mitogen-activated protein kinase 1 (MAP kinase 1: 96 E08l 8 22 2.75 14 protein kinase C delta type (PKC-delta) 97 E09l 36 68 1.89 32 insulin receptor-related receptor-alpha (sIRR-1) 98 E10f 3 17 5.67 14 CamK II; calcium/calmodulin-dependent protein kinase brain type II beta 99 E10q 3 13 4.33 10 CamK I, calcium/calmodulin-dependent protein kinase type I + CaM-like protein kinase 100 E10l 18 42 2.33 24 Casein kinase I delta, CKId; 49-kDa isoform 101 E11e 15 29 1.93 14 cyclin-dependent kinase 4 (CDK4); cell division protein kinase 4, PSK-J3 102 E12g 23 45 1.96 22 protein phosphatase 2C isoform; Mg2+ dependent protein phosphatase beta isoform 103 E13i 40 19 0.48 −21 quanine nucleotide-bindinq protein G(I) alpha 2 subunit (GNAI2); adenylate cyclase- 104 E14i 268 661 2.47 393 rab12, ras related GTPase 105 F01e 10 29 2.90 19 RalGDSB; GTP/GDP dissociation stimulator for a ras-related GTPase 106 F02a 189 97 0.51 −92 calcium-dependent phospholipase A2 precursor (PLA2); phosphatidylcholine 2- 107 F02h 15 79 5.27 64 phospholipase C beta 3 (PLC-beta 3) 108 F04e 33 57 1.73 24 14-3-3 protein zeta/delta, PKC inhibitor protein-1, KCIP-1, mitochondrial import stimulation factor 109 F04k 15 29 1.93 14 14-3-3 protein epsilon; PKC inhibitor protein-1, KCIP-1; mitochondrial import stimulation factor L 110 F05e 8 21 2.63 13 presenilin 1 (PSNL1; PSEN1; PS1); S182 protein 111 F05j 6 17 2.83 11 PDGF-associated protein 112 F06a 59 143 2.42 84 ADP-ribosylation factor 5 (ARF5) 113 F06j 12 22 1.83 10 dipeptidase (DPEP1) 114 F07m 7 29 4.14 22 granzyme M precursor (GZMM). MET-ASE; natural killer cell granular protease; RNK-MET-1 115 F08e 11 100 9.09 89 angiotensin converting enzyme (ACE; somatic; dipeptidyl carboxypeptidase I, kininase II 116 F08h 18 48 2.67 30 amonipeptidase B 117 F08i 39 92 2.36 53 kidney aminopeptidase M (APM) 118 F08k 19 81 4.26 62 metalloendopeptidase meprin beta subunit 119 F08l 5 15 3.00 10 endothelin converting enzyme 120 F09a 3 16 5.33 13 gelatinase A 121 F09g 13 27 2.08 14 cathepsin L 122 F09l 14 28 2.00 14 proteasome component C3 123 F12a 6 16 2.67 10 leukocyte common antigen-related tyrosine phosphatase (LAR) 124 G31 12 39 3.25 27 ornithine decarboxylase (ODC) 125 G43 287 1132 3.94 845 cytoplasmic beta-actin (ACTB) 126 G47 7327 3614 0.49 −3713 40S ribosomal protein S29 (RPS29)

[0107] TABLE 2 RAT GENES (PP VS. NPP) Fold GenBank ID GenBank ID GENE change Human Rat activator of apoptosis harakiri (HRK); neuronal death ** U76376.1 D83697 protein 5 (DP5); BID3 RET ligand 1 (RET1) ** — U97142 P2X purinoceptor 1; ATP receptor P2X1; purinergic ** P51575 U14414 receptor; RP-2 protein leukocyte common antigen precursor (LCA); CD45 ** Y00638 M10072 antigen; T200; PTPRC amphiphysin II (AMPH2) ** AF001383.1 Y13380 Jak3 tyrosine-protein kinase; Janus kinase 3 ** XM_038595.3 D28508 DCC; netrin receptor; immunoglobulin gene superfamily ** M32292.1 AH002168.1 member; former tumor suppressor protein candidate c-fgr proto-oncogene ** AAA52762.1 X57018.1 small inducible cytokine A3 precursor (SCYA3); ** P10147 AF119381.1 macrophage inflammatory protein 1 alpha precursor (MIP1-alpha; MIP1A) protein kinase C beta-If type (PKC-beta I) + protein kinase ** X06318 P04410 C beta-II type (PKC-beta II) E-selectin precursor; endothelial leukocyte adhesion ** P16581 L25527 molecule 1 (ELAM-1); leukocyte-endothelial cell adhesion molecule 2 (LECAM2); CD62E T-cell receptor CD3 zeta subunit ** J04132.1 L08447.1 Protein kinase C-binding protein beta15; RING-domain ** — U48248 containing G1/S-specific cyclin C (CCNC) ** AAC50825.1 D14013 maspin; protease inhibitor 5 (PI5); tumor suppressor ** U04313.1 U58857 peptide/histidine transporter ** — AB000280 acetyl-CoA carboxylase (ACC); biotin carboxylase ** X68968.1 AH002123.1 fibroblast growth factor receptor subtype 4 ** L03840.1 M91599 LCR-1; putative chemokine and HIV coreceptor homolog; ** — U54791 G protein-coupled receptor tumor necrosis factor alpha precursor (TNF-alpha; TNFA); ** AF043342.1 X66539 cachectin CC chemokine MIP3 alpha exodus ** — U90447.1 luteinizing hormone, alpha ** NM_000735.2 V01252 Ctk; non-receptor protein tyrosine kinase (batk) ** P42679 L34542.1 RhoGAP; p122 ** — S54293 Adenylyl cyclase type V ** M83533.1 M96159 cathepsin S precursor (CTSS) ** P25774 L03201.1 O-6-methylguanine-DNA methyltransferase (MGMT); ** M31767.1 NM_012861.1 methylated-DNA-protein-cysteine methyltransferase clusterin (CLU); testosterone-repressed prostate message 34.60 X14723 U02391.1 2 (TRPM2); apolipoprotein J; sulfated glycoprotein 2 (SGP2); dimeric acid glycoprotein (DAG) T-cell surface glycoprotein CD5 precursor; lymphocyte 6.33 X04391.1 D10728 glycoprotein LY-1 (LYT1) M-phase inducer phosphatase 2 (MPI2); cell division 5.67 S78187.1 D16237 control protein 25 B (CDC25B) dopamine beta-hydroxylase 4.20 Y00096.1 L12407 SURVIVAL OF MOTOR NEURON(RSMN) 3.80 AAC50473.1 U75369 HSP84; HSP90-beta; heat shock 90kD protein 3.47 XM_055551.3 S45392 Fte-1; putative v-fos transformation effector protein; yeast 3.29 M84711.1 M84716.1 mitochondrial protein import homolog; 40S ribosomal protein S3A; RPS3A 40S ribosomal protein S12 3.28 X53505 M18547 40S ribosomal protein S11 2.89 X06617 K03250 acetylcholinesterase, T subunit, glycolipid-anchored 2.64 M55040.1 X71089.1 carbonic anhydrase 4 2.50 NM_000717.2 I52551 thyroid stimulating hormone, beta 2.43 S70587.1 M13897.1 transforming growth factor, beta 1 2.38 M34057 NM_021578.1 prothymosin-alpha (PTMA) 2.33 AF257099.1 M20035 potassium channel, inward rectifier 11 2.33 — D42145 ribosomal protein L12 2.28 L06505.1 X53504.1 ribosomal protein L11 2.23 X79234.1 X62146.1 c-src-kinase (CSK) & negative regulator; tyrosine-protein 2.20 X59932.1 X58631 kinase alkaline phosphatase 2.11 AAA98616.1 S18408 guanine nucleotide-binding protein G(I) alpha 2 subunit 2.11 XM_041507.1 NM_031035.1 (GNAI2); adenylate cyclase-inhibiting G alpha protein 40S ribosomal protein S29 (RPS29) 2.03 NM_001032.2 X59051 S19; 40S ribosomal protein S19 1.97 P39019 P17074 Gax, growth-arrest-specific protein 1.95 — Z17223.1 calcium-dependent phospholipase A2 precursor (PLA2); 1.95 M22430.1 U38376.1 phosphatidylcholine 2-acylhydrolase (PLA2-10; PLA2G5) 60S ribosomal protein L21 1.94 P46778 M27905 60S ribosomal protein L19 (RPL19) 1.91 X63527 J02650 ribosomal protein L13 1.89 P26373 X78327.1 p55cdc; cell division control protein 20 1.85 AF099644.1 AF052695.1 elongation factor 2 (EF2) 1.84 X51466 Y07504.1 I-κB (I-kappa B) alpha chain; RL/IF-1 gene product 1.79 X63594.1 AF388201.1 60S ribosomal protein L44; L36A 1.76 M15661 P10661 cytochrome c oxidase, subunit VIIIh 1.76 J04823.1 NM_012786.1 G1/S-specific cyclin D3 (CCND3) 1.75 NM_001760.2 NM_012766.1 cytochrome c oxidase, subunit IV, mitochondrial 0.59 AF017115.1 X14209 glutathione 3-transferase Yb subunit; GST subunit 4 mu 0.59 — X04229.1 (GSTM2) copper-zinc-containing superoxide dismutase 1 (Cu-Zn 0.58 — NM_017050.1 SOD1) 14-3-3 protein zeta/delta; PKC inhibitor protein-1; KCIP-1; 0.58 U28964.1 L07913.1 mitochondrial import stimulation factor S1 subunit calcium binding protein 2 (CABP2); endoplasmic reticulum 0.58 XM_012077.4 M86870 stress protein (ERP72); protein disulfide isomerase- related protein precursor ATPase, subunit F, vacuolar (vatf) 0.57 AF047436.1 U43175.1 proteasome component C13 precursor; macropain subunit 0.56 P28062 NM_080767.1 C13; multicatalytic endopeptidase complex subunit C13 PSMB8 vacuolar ATP synthase 16-kDa proteolipid subunit; 0.55 NM_001695.1 M62762.1 ATP6C; MVP; ATPL dipeptidase (DPEP1) 0.55 NM_004413.1 M94056 CD4 homologue, W3/25 antigen 0.54 BC025782. M15768.1 mitochondrial ATP synthase beta subunit precursor 0.54 NM_001686.1 M19044.1 (ATP5B) cytochrome c oxidase subunit Vb & VIa precursor 0.54 M59250.1 X14208.1 (COX5B) insulin receptor-related receptor-alpha (sIRR-1) 0.53 — M90660.1 cyclin-dependent kinase 4 (CDK4); cell division protein 0.52 P11802 P35426 kinase 4; PSK-J3 14-3-3 protein epsilon; PKC inhibitor protein-1; KCIP-1; 0.52 XM_088041.1 D30739.1 mitochondrial import stimulation factor L subunit SR13 myelin protein; peripheral myelin protein 22 (PMP- 0.52 — M69139.1 22); CD25 protein cytochrome P-450 4F5 0.52 — AF288818.1 NADP+ alcohol dehydrogenase; aldehyde reductase 0.51 J04794.1 D10854.1 (ALR); 3-dG-reducing enzyme protein phosphatase 2C isoform; Mg2+ dependent protein 0.51 — S90449.1 phosphatase beta isoform testis fructose-6-phosphate 2-kinase/fructose 2,6- 0.50 NM_002625.1 X15579.1 biphosphate (testis 6PF-2-K/fru-2,6-P2ase); 6- phosphofructo-2-kinase; fructose-2,6-bisphosphatase proteasome component C3 0.50 D00760 J02897.1 cAMP-dependent protein kinase type I-alpha regulatory 0.49 P10644 P09456 chain cytochrome P-450 4F4 0.49 — U39206.1 fructose-bisphosphate aldolase A (ALDOA); muscle-type 0.49 XM_043948.2 NM_012495.1 aldolase glutathione S-transferase P subunit; GST subunit 7 pi 0.49 — X02904.1 (GST7-7) ATP synthase lipid-binding protein P1 precursor; ATPase 0.48 NM_005175.1 NM_017311.1 protein 9; ATP5G1 cathepsin L 0.48 M20496.1 Y00697.1 annexin IV(ANX4); lipocortin IV;36-kDa zymogen granule 0.47 XM_031596.3 NM_024155.1 membrane-associated protein (ZAP36) mitochondrial hydroxymethylglutaryl-CoA synthase 0.47 P54868 P22791 precursor (HMG-CoA synthase); 3-hydroxy-3- methylglutaryl-CoA synthase; HMGCS2 cytochrome B5 (CYB5) 0.45 M22865.1 D13205.1 A-raf proto-oncogene 0.44 P10398 X06942 Casein kinase I delta; CKId; 49-kDa isoform 0.43 P48730 Q06486 CD2, membrane glycoprotein, T-cell marker 0.43 M14362.1 X05111.1 kidney aminopeptidase M (APM) 0.42 XM_087746.1 M26710 rac-alpha serine/threonine kinase (RAC-PK-alpha); protein 0.42 P31749 Y15748.1 kinase B (PKB); AKT1 extracellular signal-regulated kinase 1 (ERK1); mitogen- 0.42 P27361 P21708 activated protein kinase 1 (MAP kinase 1; MAPK1); insulin - stimulated microtubule-associated protein-2 kinase; MNK1; PRKM3; ERT2; p44-MAPK cytochrome P450 17 (CYP17); P450C17; CYPXVII; 0.42 NM_000102.2 X69816.1 steroid 17-alpha-hydroxylase/17,20 lyase ADP-ribosylation factor 5 (ARF5) 0.41 NM_001662. NM_024149.1 rab12, ras related GTPase 0.41 — M83676. microsomal glutathione S-transferase (GST12; MGST1) 0.40 XM_048886.3 J03752 apolipoprotein A-I precursor (APO-AI) 0.38 X02162 M00001 presenilin 1 (PSNL1; PSEN1; PS1); S182 protein 0.38 XM_007441.1 D82363 amonipeptidase B 0.38 |XM_087242.1 U61696 leukocyte common antigen-related tyrosine phosphatase 0.38 — U00477.1 (LAR) NADPH-cytochrome P450 reductase (CPR); POR 0.37 S90469 NM_031576.1 protein kinase C delta type (PKC-delta) 0.36 NM_006254.1 M18330 proteasome delta subunit precursor; macropain delta; 0.36 X61971.1 NM_057099.1 multicatalytic endopeptidase complex delta; proteasome subunit Y; proteasome subunit 5; PSMB6 sodium channel SCNB2, beta 2 subunit, brain 0.36 AAC05208.1 NM_012877. retinoid X receptor alpha (RXR alpha; RXRA); NR2B1 0.35 XM_088424.1 NM_012805.1 PDGF-associated protein 0.35 U41745.1 U41744.1 Na+/K+ ATPase alpha 1 subunit 0.35 AAA51801.1 M28647 RalGDSB; GTP/GDP dissociation stimulator for a ras- 0.34 — NM_019250.1 related GTPase interferon regulatory factor 1 (IRF1) 0.33 XM_034862.1 M34253 LIM domain protein CLP36, homologous to rat RIL 0.33 AJ310549.1 U23769.1 adenylate kinase 3 0.33 XM_016642.3 NM_13218.1 INOSITOL TRIPHOSPHATE RECEPTOR SUBTYPE 3 0.33 — L06096.1 endothelin converting enzyme 0.33 Z35307.1 D29683 fibroblast ADP/ATP carrier protein; ADP/ATP translocase 0.33 J02683 D12771 2; adenine nucleotide translocator 2 (ANT2) cytochrome c oxidase, subunit Va, mitochondrial 0.31 M22760.1 X15030 fatty acid-binding protein (intestinal; I-FABP; FABPI) 0.31 M18079 M18080.1 ornithine decarboxylase (ODC) 0.31 X16277 D11372.1| antigen peptide transporter 1 0.30 X57522 P36370 lipocortin 2 0.29 D00017.1 S73557 signal transducer CD24 precursor; heat stable antigen 0.28 P25063 U49062 (HSA); nectadrin cytoplasmic beta-actin (ACTB) 0.25 M10277.1 V01217 fructose-bisphosphate aldolase B (ALDOB); liver-type 0.24 XM_042788.1 M10149 aldolase granzyme M precursor (GZMM); MET-ASE; natural killer 0.24 NM_005317.2 Q03238 cell granular protease; RNK-MET-1 scavenger receptor class B type I 0.24 — AB002151.1 glutamyl aminopeptidase A 0.24 XM_003595.2 S73583 metalloendopeptidase meprin beta subunit 0.23 — M88601.1 glutathione synthetase (GSH synthetase; GSH-S; GSS); 0.23 U34683.1 L38615.1 glutathione synthase cytochrome oxidase, subunit I, Sertoli cells 0.23 S79304 S79304 CamK I; calcium/calmodulin-dependent protein kinase 0.23 Q14012 L24907 type I + CaM-like protein kinase C-type natriuretic peptide precursor (CNP; NPPC) 0.22 NM_024409.1 D90219 neurotrophin 3 precursor (NTF3); neurotrophic factor; 0.20 M37763.1 M34643 HDNF; nerve growth factor 2 (NGF2) phospholipase C beta 3 (PLC-beta 3) 0.19 NM_000932.1 M99567 ATP synthase, subunit c, P2 gene 0.19 D13119.1 D13124 gelatinase A 0.19 NM_004530.1 U65656 glutathione S-transferase Ya subunit (GST YA); ligandin 0.18 NM_000852.2 K01932 subunit 1 alpha creatine kinase, ubiquitous, mitochondrial 0.18 XM_016524.4 X59737 fatty acid-binding protein (liver; L-FABP); Z-protein; 0.18 NM_001443.1 M35991 squalene- & sterol-carrier protein (SCP); P14 cytochrome P-450 4F1, hepatic tumour 0.18 — NM_019623.1 CamK II; calcium/calmodulin-dependent protein kinase 0.18 NM_001220.1 M16112 brain type II beta sodium-glucose cotransporter 1 0.16 P13866 U03120 fructose (glucose) transporter 0.16 AAB60641 D13871.1 urate transporter/channel 0.15 — U67958 sodium/potassium-transporting ATPase beta 1 subunit 0.13 NM_001677.1 NM_013113.1 (ATP1B1) fatty acid amide hydrolase 0.12 U82535.1 U72497 proton-coupled dipeptide cotransporter 0.11 — D50306.1 angiotensin converting enzyme (ACE; somatic; dipeptidyl 0.11 NM_000789.1 NM_012544.1 carboxypeptidase I; kininase II apolipoprotein A-IV precursor (APO-AIV) 0.10 XM_052144.2 P02651 ErbB3 EGF receptor-related proto-oncogene; HER3 0.08 M29366.1 NM_017218.2 Jun-B; c-jun related TF, ** M29039.1 X54686 S-myc proto-oncogene; myc related, ** M29069 C-est-I proto-oncogene; p54. 5 AF193068.1 X55787.1 Jun-D; c-jun related TF, 1.79 X56681.1 D26307(mouse) NF-kappaβ Tf p105 subunit, 1.67 P19838 L26267.1 Nm23-M2; nucleoside diphosphate kinase B; 1.47 X68193.1 metastasis reducing protein, (mouse) STAT 3 —signal transducer and activator of 1.16 NM_003150.1 NM_012747.1 transcription 3, CREB active TF, 1 M34356.1 New england deaconess TF, 1 U09229 Lim-2; embryonic motor neuron topographic 1 L35572 organizer; homeobox protein LIM-2, and NDK-B; nucleoside diphosphate kinase B; 0.81 U29200.1 metastasis reducing protein, C-jun proto-oncogene; TF AP-1; RJG-9, 0.5 J04111.1 X17215.1

Example 5 ATLAS Array Data on Co-Culture of Human Caco-2 Cells and Raji B-Cells

[0108] In order to facilitate the routine study of M cell biology, there was a desire to establish a suitable and representative in-vitro model. In the work carried out by Kernéis et al. (Kerneis S, Caliot E, Stubbe H, Bogdanova A, Kraehenbuhl J, Pringault E (2000). Molecular studies of the intestinal mucosal barrier physiopathology using co-cultures of epithelial and immune cells: a technical update. Microbes Infect Jul. 2, 2000 (9):1119-24), it was reported that Peyer's patch lymphocytes co-cultured with Caco-2 cells trigger the phenotypic conversion of enterocytes into cells that express morphological and functional M-cell properties. This work was further developed by Gullberg et al. (Gullberg E, Leonard M, Karlsson J, Hopkins A M, Brayden D, Baird A W, Artursson P. Expression of specific markers and particle transport in a new human intestinal M-cell model. Biochem Biophys Res Commun Dec. 29, 2000; 279(3): 808-13) to create a simplified in vitro model of the human M-cell. Co-cultures of physically separated human intestinal epithelial Caco-2 cells and B-cell lymphoma Raji cells were established. The co-cultures were characterized under the criteria of morphology, integrity, expression of M-cell markers and cell adhesion molecules (CAMs), and altered particle transport. Using this construct, the epithelial cells were transformed to cells with an M-cell-like morphology and had altered expression of potential human M-cell markers (alkaline phosphatase down-regulation and Sialyl Lewis A antigen up-regulation). The expression of intercellular adhesion molecule-1 and vascular cell adhesion molecule was altered, and there was an increased binding of lectins wheat germ agglutinin and peanut agglutinin with a 40-fold increase in microparticle transport. The particle transport was size-dependent and could be inhibited at 4° C. or by replacing the Raji B-cells with Jurkat T-cells. Thus the comparison of RNA isolated from co-cultured Caco2 cells to that isolated from normal Caco2 cells was designed to simulate a comparison of M cell RNA to normal gut enterocyte RNA.

Isolation of Total RNA from Co-Cultured Caco-2 Cells

[0109] Caco-2 Cell Culture

[0110] Caco-2 cells were cultured in Dulbecco's Modified Eagles Medium (DMEM), 4.5 g/L glucose supplemented with 1% Mem, 10% FCS and 1% penicillin/streptomycin a t 37° C. and 5% CO₂ in 95% relative humidity. Cells were grown and expended in Falcon culture flasks and passaged once they attained 100% confluence. Caco-2 cells were seeded on Transwell Clear filters (Costar, 12 mm diameter, 3.0 μm pore size)) at a density of 5×10⁵ cells/cm2 and incubated in a 12 well culture plate with a medium change every second day. 1.0 ml was added to the basolateral side and apical sides.

[0111] Raji Cell Culture

[0112] Raji B-lymphoma cells were cultured in RPMI 1640 Medium, with 1% (v/v) non-essential amino-acids, 10% FCS and 1% penicillin/streptomycin, 1% L-glutamine at 37° C. and 5% CO₂ in 95% relative humidity. Cells were grown in suspension in Falcon tissue culture flasks and passaged by dilution every 5-7 days.

[0113] Co-Culture: Day 14 (Treating with Raji B-Cells)

[0114] After 14 days of culturing Caco-2 monolayers, 15-20 ml of Raji cells were removed from the T75 flask and placed in a 20 ml universal. The cells were centrifuged at 1000 rpm for 3 min. Cells were re-suspended at a concentration of 1×10⁶ cells/ml. 1 ml of fresh complete DMEM was added to the apical and basolateral sides of the Caco-2 monolayer filters. 0.5 ml of 1×10⁶ Raji cells/ml cells was added to the basolateral side of the filters. For control filters (non co-culture) 0.5 ml of Raji medium only was added to the basolateral side.

[0115] Isolation of Total RNA from Co-Cultured Caco-2 Cells

[0116] After 4 days of co-culture the filters were rinsed in PBS. 0.5 ml of PBS was added to the apical side of each filter and the Caco-2 cells were scraped off the filter surface into suspension in the PBS. The cells from all the co-cultured Caco-2 filters were pooled, centrifuged at 1000 rpm for 3 min, the supernatant PBS was removed and the pellet was used for RNA extraction.

[0117] Analysis of mRNA Expression

[0118] Total cellular RNA was extracted using an acid guanidinium thiocyanate-phenol-chloroform method. RNA's integrity was confirmed by gel electrophoresis and ethidium bromide staining. mRNA was reverse transcribed in the presence of P³² dATP, and the transcribed cDNA was purified by chromatography before being hybridized over night to the array membrane. Membranes were exposed to x-ray film using an intensifying screen for 3 days and the mRNA expression levels were analyzed by scanning the films with a densitometer. Expression levels were normalized relative to internal standards, and relative increases in mRNA levels in co-cultured cells versus monoculture controls were calculated. Two hybridization experiments were performed using mRNA from two separate cell harvests. Results from the two experiments were pooled, and a summary of the findings was tabulated in Tables 3(a)-3(f). The identified genes are from the following groups: oncogenes, tumor suppressor genes, genes involved in the cell cycle, ion channels and transport, stress response genes, modulators and effectors, genes involved in intracellular transduction, genes linked to apoptosis, DNA synthesis, repair & recombination, transcription factors, DNA binding proteins, receptors, cell surface antigens, genes involved in cell adhesion, growth factors, cytokines, chemokines and hormones.

[0119] In Table 3, genes which were found to be exclusively over-expressed in the co-culture and not in the control Caco-2 monolayer are represented by **. A single asterisk represents genes that also were expressed in the co-culture and not in the control Caco-2 monolayer. However, these particular genes have been distinguished from the genes labeled with two asterisks as they were not expressed in both hybridization experiments performed, and will require confirmation in the future by PCR so as to rule out false positives/negatives. Genes not expressed in the co-culture but expressed in the Caco-2 monolayer controls are indicated by a minus symbol, “−”. TABLE 3 a Oncogenes, Tumor Suppressors, Cell Cycle Regulators Gene Fold change GenBank ID Myeloid cell nuclear differentiation * M81750 antigen (MNDA) G1/S-specific cyclin D1 (CCND1); * X59798 cyclin parathyroid adenomatosis 1 (PRAD1); bcl-1 oncogene cyclin-dependent kinase 4 inhibitor 2 * L27211.1 (CDK4I; CDKN2); p16-INK4; multiple tumor suppressor 1 (MTS1) cyclin-dependent kinase inhibitor 1C * U22398 (CDKN1C); p57-KIP2 ezrin; cytovillin 2; villin 2 (VIL2) 1.69 X51521 proto-oncogene tyrosine-protein 1.55 L04143.1 kinase kit; c-kit; mast/stem cell growth factor receptor precursor(SCFR); CD117 antigen proliferating cell nucleolar anti- 1.52 M32110 gen P120; NOL1 jun proto-oncogene; avian sarcoma 1.47 J04111 virus 17 oncogene homolog; transcription factor AP-1 C-src proto-oncogene (SRC1) 1.35 X59932 CDC-like kinase 3 (CLK3) 1.35 L29220 cell division cycle protein 25 1.34 M91815.1 nucleotide exchange factor (CDC25) prothymosin alpha (PROT-alpha; PTMA) 1.32 M26708 40S ribosomal protein S19 (RPS19) 1.31 M81757 avian myelocytomatosis viral 1.30 V00568 oncogene homolog (MYC) CDC-like kinase 1 (CLK1) 1.27 L29219.1 cyclin-dependent kinase 4 inhibitor 0.69 U49399.1 2D (CDKN2D); p19-INK4D vascular endothelial growth factor 0.62 XM_039993.2 receptor 1 (VEGFR1); tyrosine- protein kinase receptor flt + soluble VEGFR; tyrosine-protein kinase receptor SFLT neogenin — U61262.1 webB2 receptor protein-tyrosine — M11730.1 kinase; neu proto- oncogene; c-erbB2 + HER2 receptor N-ras; transforming p21 protein — AAA60255

[0120] TABLE 3 b Ion Channels, Modulators, Effectors Gene Fold change GenBank ID extracellular signal-regulated ** X14798.1 kinase 3 (ERK3); mitogen-activated protein kinase 6 (MAP kinase 6; MAPK6; PRKM6); p97-MAPK 40-kDa heat-shock protein 1 (HSP40); ** D49547 DNAJ protein homolog 1 (HDJ1; DNAJ1) 70-kDa heat shock protein 1 ** M11717 (HSP70.1; HSPA1) glutaredoxin ** X76648 tyrosine kinase receptor tie-1 * AAB84296 precursor ras-related protein RAB3B * NM_002867.1 macMARCKS; MARCKS-related protein * P49006| (MRP); MLP mitogen-activated protein kinase 3 * P27361 (MAPK3; PRKM3); MAPK1; extra- cellular signal-regulated kinase 1 (ERK); microtubule-associated protein 2 kinase, insulin- stimulated MAP2kinase mitgoen-activated protein kinase 9 * NM_002752.1 (MAP kinase 9; MAPK9; PRKM9); c-jun N-terminal kinase 2 (JNK2); JNK55 60-kDa heat shock protein (HSP60); * M22382.1 HSPD1; 60-kDa chaperonin; mitochondrial matrix protein P1 precursor; p60 lymphocyte protein; HUCHA60; GROEL serine kinase 2.24 U09564.1 transferrin receptor (TFRC); CD71 1.80 M11507.1 antigen Neurotrophic tyrosine kinase 1.63 U55017.1 receptor-related 3: TKT percursor phospholipase C (PLCL) 1.62 X14034. cAMP-response element binding 1.59 M27691.1| protein (CREB) ephrin type-A receptor 1 precursor; 1.55 M18391 tyrosine-protein kinase receptor eph 27-kDa heat-shock protein (HSP27); 1.42 X54079.1 stress-responsive protein 27 (SRP27); estrogen-regulated 24-kDa protein; HSPB1 tyrosine kinase tnk1 1.42 XM_012654.3 ras-related protein RAB3A 1.38 XM_054457.2 janus kinase 3 (JAK3); leukocyte 1.33 XM_038595.3 janus kinase (L-JAK) dual-specificity mitogen-activated 1.29 NM_002755.2 protein kinase kinase 1 (MAP kinase kinase 1; MAPKK 1; MKK1); extracellular signal-regulated kinase 1; ERK activator kinase 1 calcium/calmodulin-dependent protein 1.27 NM_001744.1 kinase type IV catalytic subunit (CAMK IV); CAM kinase-GR ras-related protein RAB5A 0.75 XM_053461.2 colon carcinoma kinase 4 precursor 0.68 U33635.1 (CCK4) + transmembrane receptor PTK7 epithelial discoidin domain receptor 0.63 XM_004559.5 1 precursor (EDDR1; DDR1); cell adhesion kinase (CAK); TRKE; RTK6; protein tyrosine kinase 3A (PTK3A); neuroepithelial tyrosine kinase (NEP) ras-related protein RAB6 0.27 M28212.1 cAMP-dependent protein kinase type I 0.23 M65066.1 beta regulatory subunit (PRKAR1B) tyrosine-protein kinase ack — CAC15525 T-lymphocyte maturation-associated — P21145 protein MAL orphan hormone nuclear receptor — U04897.1 LIM domain kinase 1 (LIMK-1) — P53667 protein kinase C alpha polypeptide — NM_002737.1 (PKC-alpha; PKCA) dual specificity mitogen-activated — P46734 protein kinase kinase 3 (MAP kinase kinase 3; MAPKK3; MKK3); ERK activator kinase 3; MAPK/ERK kinase 3 (MEK3) Yamaguchi sarcoma viral-related — M16038.1 oncogene homolog; tyrosine-protein kinase lyn protein-tyrosine phosphatase 1E — U12128.1

[0121] TABLE 3.c Apoptosis, DNA Synthesis, Repair & Recombination Gene Fold change GenBank ID ubiquitin-conjugating enzyme E2 17- ** NM_003336.1 kDa (UBE2A); ubiquitin-protein ligase; ubiquitin carrier protein, HR6A growth arrest & DNA-damage-inducible ** S40706.1 protein 153 (GADD153); DNA-damage- inducible transcript 3 (DDIT3); C/EBP homologous protein (CHOP) growth factor receptor-bound protein * M96995.1 2 (GRB2); ASH protein glutathione S-transferase A1 (GTH1; * M21758.1 GSTA1); HA subunit 1; GST-epsilon cytoplasmic dynein light chain 1 * U32944.1 (HDLC1); protein inihibitor of neuronal nitric oxide synthase (PIN) xeroderma pidmentosum group G * NM_021141.2 complementing protein (XPG); X-ray repair-complementing defective repair in Chinese hamster cells 5 (XRCC5) xeroderma pigmentosum group D * AF035587.1 complementing protein (XPD); X-ray repair-complementing defective repair in Chinese hamster cells 2 (XRCC2) RAD23 homolog A (RAD23A; hHR23A) * NM_005053.1 ataxia telangiectasia (ATM) * AAB38309 apoptosis regulator bcl-x 1.60 Z23115.1 caspase 9 percursor (CASP9); ICE-like 1.42 AB020979.1 apoptotic protease 6 (ICE-LAP6); apoptotic protease MCH6; apoptotic protease activating factor 3 (APAF3) CD40 receptor-associated factor 1 1.39 U21092.1 (CRAF1) SL cytokine precursor; FMS-related 1.35 NM_001459.1 tyrosine kinase 3 ligand (FLT3 ligand; FLT3LG) cytochrome P450 reductase 1.33 AAD45961.1 X-ray repair complementing defective 1.25 M36089 repair in Chinese hamster cells 1 (XRCC1) Ku (p70/p80) subunit; ATP-dependent 0.74 X57500.1 DNA helicase II 86-kDa subunit; lupus ku autoantigen protein; thyroid-lupus autoantigen (TLAA); CTC box binding factor 85-kDa subunit (CTCBF; CTC85); nuclear factor IV caspace 10 precursor (CASP10); ICE- 0.45 Q92851 LIKE apoptotic protease 4 (ICE-LAP4); apoptotic protease MCH4; fas- associated death domain protein; interleukin 1 beta- converting enzyme 2 (FLICE2); inhibitor of apoptosis protein 2 — Q13490 (HIAP2; IAP2) + IAP homolog B; TNFR2-TRAF signaling complex protein 2; MIHB recA-like protein HsRad51; DNA repair — BAA02962.1 protein RAD51 homolog DNA damage repair & recombination — B56529 protein 52 (RAD52) DNA ligase III (LIG3); polydeoxyribo- — CAA59230.1 nucleotide synthase

[0122] TABLE 3 d Transcription Factors, DNA Binding Proteins Gene Fold change GenBank ID transcriptional activator hSNF2-alpha ** D26155.1| early growth response protein 1 2.71 M62829.1 (EGR1); transcription factor ETR103; KROX24; zinc finger protein 225 (ZNF225); AT225 homeobox A1 protein (HOXA1); HOX1F 2.17 U10421.1 transcription factor NF-ATc 1.67 U08015.1 R kappa B DNA-binding protein 1.66 U08191.1 transcription initiation factor IID 1.57 M55654 31-kDa subunit (TFIID); TATA-box- binding protein-associated factor RNA polymerase II G 32-kDa subunit (TAFII32; TAF2G); TAFII31 homeobox protein hLim1; LHX1 1.51 NM_005568.1 helix-loop-helix protein HLH 1R21; 1.49 X69111.1 DNA-binding protein inhibitor Id-3; HEIR-1 guanine nucleotide-binding protein 1.46 NP_000507.1 G-s alpha subunit (GNAS); adenylate cyclase-stimulating G alpha protein CCAAT-binding transcription factor 1.45 AAA40889.1 subunit B (CBF-B); NF-Y protein sub- unit A (NF-YA); Hap2; CAAT-box DNA- binding protein subunit A transcription factor LSF 1.37 B53771 homeobox 2.1 protein (HOX2A); HOXB5; 1.35 M92299.1 HU1; HHO.C10 endothelial transcription factor 1.34 M68891.1 GATA2 transcription factor Sp1 (TSFP1) 1.30 XM_028606.2 transcription factor ZFM1 0.62 G02919 zinc finger protein 161 (ZNFI61); 0.26 NP_009077.1 putative transcription activator DB1 stem cell protein (SCL); T-cell — AAA36598.1 leukemia/lymphoma-5 protein (TCL5); T-cell acute lymphocytic leukemia-1 protein (TAL1) neural retina-specific leucine zipper — NP_006168 protein (NRL) MSX-1 homeobox protein; HOX7 — P28360 basic transcription factor 62-kDa — AAA58399.1 subunit (BTF2) paired box homeotic protein (PAX8) — BAB59039.1 isoforms 8A/8B + isoforms 8C/8D brain-specific homeobox/POU domain — AAA65605.1 protein 3A (brn-3A); RDC-1; octamer binding transcription factor 1 (OTF1) transcription factor E2-alpha (E2A); — AAA61146.1 immunoglobulin enhancer binding factor E12; transcription factor-3 (TCF3) transcriptional enhancer factor — P28347 (TEFI); protein GT-IIC; transcription factor 13 (TCF13) thioredoxin perodxidase 2 (TDPX2); — Q06830 thioredoxin-dependent peroxide reductase 2; proliferation- associated gene (PAG); natural killer cell enhancing factor A (NKEFA)

[0123] TABLE 3 e Receptors, Cell Surface Antigens, Cell Adhesion Gene Fold chance GenBank ID interleukin-2 receptor gamma subunit * AAA59145.1 (IL-2R gamma; IL2RG); cytokine receptor common gamma chain precursor; p64 interferon gamma receptor (IFNGR) * NM_000416.1|[ interleukin-1 receptor type I * M27492.1 precursor (IL-1R1); IL-1R-aplha; p80; CDW121A antigen neural-cadherin precursor (N- * L34059 cadherin; NCAD); cadherin 2 (CDH2) neural cell adhesion molecule L1 * M77640 precursor (N-CAM L1); MIC5 integrin alpha 3 (ITGA3); galacto- * M59911.1 protein B3 (GAPB3); very late antigen 3 alpha subunit (VLA3 alpha); CD49C antigen leukocyte adhesion glycoprotein p150, * M81695.1 95 alpha subunit precursor; leukocyte adhesion receptor p150, 95; CD11C antigen; leu-M5; integrin alpha X (ITGAX) integrin beta 4 (ITGB4); CD104 * X51841.1 antigen CD44 antigen precursor (CD44); 1.51 XP_030326.1 phagocytic glycoprotein I (PGP1); HUTCH I; extracellular matrix receptor III (ECMR III); gp90 lymphocyte homing/adhesion receptor (LHR); hermes antigen; hyaluronate receptor; heparan sulfate proteoglycan; epican glutamate receptor subunit epsilon 3 1.44 NP_000826.1 precursor (GRIN2C); N-methyl D- aspartate receptor subtype 2C (NMDAR2C; NR2C) CD27L antigen receptor precursor; 0.7  P26842 tumor necrosis factor receptor superfamily member 7 (TNFRSF7); T14 integrin alpha L (ITGAL); leukocyte 0.45 P20701 adhesion glycoprotein alpha subunit precursor; leukocyte function- associated molecule 1 alpha chain (LFAI); CD11A antigen interleukin 2 receptor alpha subunit 0.41 P01589 precursor (IL-2 receptor alpha subunit; IL2RA); TAC antigen; CD25 antigen CDW40 antigen; CD40L receptor 0.35 CAA43045.1 precursor; nerve growth factor receptor-related B-lymphocyte activation molecule granulocyte colony stimulating factor — Q99062 receptor precursor (GCSF-R); CD114 antigen low-affinity nerve growth factor — AAB59544.1 receptor (NGF receptor; NGFR); GP80- LNGFR neuromedin B receptor (NMBR); — NP_002502.1 neuromedin-B-preferring bombesin receptor granulocyte-macrophage colony- — Q00941 stimulating factor receptor alpha (GM-CSFR-alpha); CSW116 antigen platelet membrane glycoprotein IIIA — P05106 precursor (GP3A); integrin beta 3 (ITGB3); CD61 antigen integrin alpha 7B precursor (IGA7B) — CAA52348.1

[0124] TABLE 3 f Growth Factors, Cytokines, Hormones Gene Fold change GenBank ID Interleukin-10 precursor (IL-10); ** M57627 cytokine synthesis inhibitory factor (CSIF) Granulocyte-macrophage colony * AAA52578.1 stimulaitng factor (GM-CSF); CSF2 FMLP-related receptor I (FMLPRII); * AAA58482.1 RMLP-related receptor I (RMLPRI) Glia maturation factor beta * P17774 (GMF-beta) Hepatoma-derived growth factor (HDGF) * P51858 Macrophage inflammatory protein 1 * P10147 alpha precursor (MIP1-alpha); tonsillar lymphocyte LD78 alpha protein; G0S19-1 protein; PAT 464.2; SIS-beta; small inducible cytokine A3 (SCYA3) Monocyte chemotactic protein 1 * P13500 precursor (MCP1); monocyte chemotactic and activating factor (MCAF); monocyte secretory protein JE; monocyte chemoattractant protein 1; HC11; small inducible cytokine A2 (SYCA2). Oncostatin M (OSM) * NP_065391.1 Renin-binding protein (RENBP; RNBP) XP_013053.3 Calgranulin B (CAGB); migration 1.49 B31848 inhibitory factor-related protein 14 (MRP14); leukocyte L1 complex heavy chain; S100 calcium binding protein A9 (S100A9) Placenta growth factors 1 + 2 1.42 CAA38698.1 (PLGF1 + PLGF2) Vascular endothelial growth factor 1.42 AAA35789.1 precursor (VEGF); vascular permeability factor (VPF) Hepatocyte growth factor activator 1.40 BAA74450.1 (HGF activator) Follistatin-related protein precursor 1.34 AAA66062.1 Hepatocyte growth factor-like protein; 1.29 AAA59872.1 macrophage stimulating protein (MSP) Interferon gamma precursor (IFN- 1.29 P01579 gamma, IFNG); immune interferon WSL protein + TRAMP + Apo-3 + 0.69 AAB41432.1 death domain receptor 3 (DDR3) Neurotrophin-4 (NT4) 0.68 AAA60154.1 Interleukin-13 precursor (IL-13); 0.39 P35225 NC30 Small inducible cytokine A5 (SYCA5); 0.38 XP_035842.1 regulated on activation normal T- cell-expressed & secreted protein precursor (RANTES); SIS delta Estrogen sulfotransferase (STE; EST1) — CAA72079.1 Keratinocyte growth factor (KGF); — AAA63210.1 fibroblast growth factor 7 (FGF7) Endothelial-monocyte activiting — AAA62202.1 polypeptide II (EMAP II) Leukemia inhibitory factor precursor — B36282 (LIF); differentiation-stimulating factor (D factor); melanoma derived LPL inhibitor (MLPLI); HILDA Acidic fibroblast growth factor — AAA51672.1 (AFGF) + heparin-binding growth factor 1 precursor (HBGF-1) + beta-endothelial cell growth factor (ECGF-beta) Insulin-like growth factor-binding — P17936 protein 3 precursor (IGF-binding protein 3; IGFBP3; IBP3)

Immunity

[0125] The events of the cell cycle occur under normal circumstances in a fixed sequence. Traditionally, the cycle is divided into two stages: cell division and the interphase. Cell division or mitosis is followed by cytokinesis and together they constitute the ‘M phase’ of the cell cycle. The interphase is divided up into the S, G₁ and G₂ phases. Briefly, during the S phase, DNA is replicated in preparation for mitosis, while the intermediate G phases are transitional periods involved in protein synthesis and cell growth. Activation of regulatory genes that control and maintain a cell's proliferative state by intracellular signals (discussed below) stimulates proliferation of the cell and initiates cell growth. A number of genes involved in these processes were differentially expressed in the co-culture model (as estimated by relative mRNA abundance) and discussed below.

[0126] The epithelial cells of the gut play an important part of the innate and specific immunity. IEC's are considered to be in a continuous controlled state of “physiological” inflammation and active processes continually take place to ensure that the tone of immunosuppression is maintained (Mayer, 2000). These unique regulators appear to control the mucosal immune system's condition. These distinct factors govern the immune response, whether it's immune suppression/tolerance, inflammation or a systemic immune response. A clearer understanding of the immunoregulatory features involved in mucosal immunity is clearly desirable and may lead to new approaches in disease and drug therapy. Genes detected in the co-culture model that may be related to or are involved in immune function in GALT are discussed below.

[0127] The gamma subunit if IL-2 receptor plays a pivotal role in formation of the full-fledged IL-2 receptor (Di Santo et al., 1995). In an interesting study where infant rats were studied from pre- to post weaned life Masjedi et al. (1999) assessed alterations in expression and phenotype of cells in the gut-associated lymphoid tissue. At an age when the immune system is believed to be immature and functionally naive they discovered interleukin-2 receptor (IL-2R) expression peaked approximately four-fold at midweaning in Peyer's patches, compared with adult animals (day 70) suggesting that IL-2R expression is an adaptation to the host's environment. In a similar way, the presence of IL-2R specific for cells in the co-culture could be a direct result of the environment. The common gamma c chain of the interleukin 2 receptor, gamma is also a component of the receptors for IL-4, 1 L-7, and IL-9 and plays a critical role in lymphoid development through its participation in the receptors for IL-2, IL-4, IL-7, IL-9, and IL-15 (Di Santo et al., 1995)

[0128] Interferon-γ (IFN-γ) exhibits various properties including antigrowth activity in neoplastic and normal cells, and regulatory roles in immune responses (Tsuji et al., 1998). Kjerrulf et al. (1997) found that in IFN-γ receptor knockout mice (IFN-γR^(−/−)) reduced mucosal antibody responses and decreased Th1 and Th2 activity after oral immunization. The presence of IFN-γ receptor in the M cell co-culture model could possibly augment a cross-regulation between the two Th subsets in the gut mucosa. It is noteworthy that the ligand, IFN-γ, mRNA was increased in the co-culture that was supported further by the significant secretion of IFN-γ from co-culture monolayers.

[0129] The C-C chemokines macrophage inflammatory protein 1 (MIPLα) and monocyte chemotactic protein (MCP1) are synthesized and expressed by epithelial cells (Vainer et al., 1998; Kolios et al., 1999). The purpose of these chemokines expression in the co-culture model could be to function not only in leukocyte migration, but also as adhesins in the interaction between leukocytes and colonic epithelium. However, another C-C chemokine, RANTES, mRNA was observed to be reduced in the co-culture. The reasons for this are unclear. Perhaps, the chemoaffractant activities of other chemokines such as IL-8, MIP1α and MCP1 are sufficient for the M cell and in the absence of T cells the need for RANTES is not required.

[0130] From a gene delivery perspective, a higher capacity for translation and protein synthesis in PP tissue indicates that PP tissue is a preferred tissue to which to deliver genes coding for DNA vaccines or antigens. Thus the proposed higher translational capacity of PP tissue has implications for gene delivery especially DNA vaccine delivery and correspondingly antigen expression and local presentation to the mucosal immune system in the gastrointestinal tract. The TF coding genes may be important in priming M cells or precursor cells to M cells to adopt M cell phenotype and/or to facilitate priming of M cells to give a better immune cell outcome.

[0131] M cell receptors identified in Table 3(e) above are of particular interest in that they can be used for vaccine and delivery.

[0132] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of an IL-2 receptor, a gamma c chain of an IL-2 receptor, intereron-γ, and a C—C chemokine.

Proliferation and Growth

[0133] Cyclin DI is a protein involved in regulation of the cell cycle. Over-expression of the protein is associated with abnormal growth or neoplasia. This protein is positively induced by the p42/p44 MAP kinases (Lavoie et al., 1996). It would be interesting if the neoplasia seen in M cells resulted from activation of this protein considering the coincidental induction of the p44 MAP kinase (ERK1) below. The reduction in cyclin-dependent kinase 4 inhibitor 2D (CDKN2D) mRNA that normally inhibits cell cycle progression (Guan et al., 1996) would insinuate a similar function in the proliferation of these ‘M cells.’

[0134] In contrast, the induction of cell cycle inhibitors such as cyclin-dependent kinase inhibitor (CDKI) and cyclin-dependent kinase 4 inhibitor (CDK4J) would appear to be working to counterbalance proliferative stimuli present in the M cell.

[0135] PLC-L (phospholipase C-deleted in lung carcinoma) is a putative tumor suppressor gene. It is believed that irregular (in fact deletion) expression of the PLC-L gene contributes to the growth of human lung carcinoma (Kohno et al., 1995). It is possible then that its upregulation in the M cell model is acting as a negative regulator of growth in the cells, counterbalancing the many proliferative signals present.

[0136] Growth factor receptor-bound protein 2, GRB2, involved in growth factor control of ras signalling (Lowenstein et al., 1992).

[0137] The intracellular signaling pathways responsible for cell cycle arrest and establishment of differentiated cells along the gut axis remain largely unknown particularly in the case for the development of M cells and the FAE. ERK3/MAPK6 is expressed solely in the co-culture. Extracellular signal-regulated kinases-1 (ERK1) also known as the p44 mitogen-activated protein (MAP) kinase (p44mapk) is also induced specifically in the co-culture model. ERK1 and ERK3 are proline-directed serine/threonine kinases that are activated in response to a variety of extracellular signals, including growth factors, hormones and, neurotransmitters. These MAP kinases are key molecules involved in intracellular signal transduction, and are key regulators of cell proliferation in mammalian cells (Davis, 1995). Results indicate that elevated p42/p44 MAPK activities stimulate cell proliferation of intestinal cells, whereas low sustained levels of MAPK activities have correlated with cell cycle arrest and an increased expression of sucrase isomaltase (Aliaga et al., 1999). It is tempting to speculate that the presence of ERK3 together with the other MAP kinases apart from their proliferative effects are in part responsible for a reduction in sucrase isomaltase, a characteristic effect in M cells.

[0138] Lying upstream in the ERK signal cascade the tyrosine/threonine protein kinase, MAPK kinase (MAPKK1) is implicated in the regulation of cell growth and differentiation through the activation of ERK. In addition it is interesting to note that MAPKK3 was deleted in the co-culture cells. MAPKK3 phosphorylates and activates p38 MAP kinase alpha and gamma isoforms (Enslen et al., 1998). The induction of the MAPKK1 gene along with serine kinase coincides with the induction of ERK1, highlighting the ERK cascade as an important signalling cascade in M cell maintenance. It is interesting to note that ERK activation is responsible for terminal differentiation of components of the crypt-villus. (Taupin and Podolsky, 1999)

[0139] However, glia maturation factor-β (GMF-β) is potentially offsetting the ERK cascade effects. It is known to inhibit MAP kinases particularly ERK1 and ERK2 and yet promotes the p38 MAPK (Zaheer and Lim, 1996 and 1998).

[0140] Findings suggest that positive and negative regulation of MAPK activity are associated with loss of normal growth control and may be involved in carcinogenesis of colon cancers. Jun kinases such as JNK2 (MAP kinase 9) mediate signal transduction of pro-inflammatory cytokines and cellular stress (Uciechowski et al., 1996).

[0141] CD40 is a receptor on the surface of B-lymphocytes, the activation of which plays critical role in B cell proliferation and differentiation. CRAF1, (CD40 receptor-associated factor 1) encodes a protein that interacts directly with CD40 receptor (Cheng et al., 1995). Its upregulation in the co-culture is perhaps a main determinant of lymphoepithelial crosstalk as discussed above.

[0142] The c-myc gene is commonly amplified and over-expressed in many human tumors (Ryan and Birme, 1996). A member of the myc family of helix-loop-helix transcription factors, c-myc is integral in controlling cell growth and promotes cell proliferation and transformation by activating growth-promoting genes (Thompson, 1998). Prothymosin-α (PT-α) is a nuclear protein and its expression is associated with alterations in the proliferative state of cells and has been reported to be regulated by the c-myc gene in vitro. (Smith, 1995; Mon et al., 1993). The increased activity of c-myc in this model is likely to result in the increase in RT-α mRNA.

[0143] PKC-α protein levels regulate certain pathways that lead to the expression of differentiation-dependent genes. In a series of antisense transfection experiments where PKC-α expression in CaCo-2 cells was almost completely deleted, enhanced proliferation and a marked decrease in differentiation was observed, as well as a more aggressive transformed phenotype (Scaglione-Sewell et al., 1998). In a similar fashion, the lack of PKC-α mRNA detected in the co-culture ‘M cells’ may underlie some of the phenotype changes featured.

[0144] Glutathione S-transferase A1 (GSTA1) is a member of a multigene family of detoxification and metabolizing enzymes. Induction of GST enzyme activity has been demonstrated to act as a potent anti-proliferative and differentiating agent in Caco-2 cells (Stein et al., 1996) suggesting a similar role in the ‘M cell.’

[0145] Transcription factor GATA-2 is thought to maintain and promote the proliferation of early haematopoietic progenitor cells.

[0146] The placenta growth factor (PLGF) is a member of the vascular enciotheial growth factor (VEGF) family of growth factors. In addition to PLGF, VEGF mRNA was enhanced in the co-culture cells. These growth factors play a crucial role in angiogenesis during development and/or repair (Andre et al., 2000). The augmented transcription of their mRNA is consequently not a surprising find. However, hypoxia and energy depletion are known to induce angiogenesis by increasing VEGF, expression and so the possibility that the co-culture conditions are responsible for these genes induction cannot be ruled out ratherthan a deliberate mechanism of neogenesis in M cell formation. VEGF receptor 1 (VEGFR1); the receptor for VEGF and PLGF, mRNA is down-regulated and is possibly a consequence of desensitization of the receptor by VEGF and PLGF binding, initiating a reduction in the receptor's RNA.

[0147] Coinciding with the above actions, the absence of growth factors such as insulin-like growth factor-binding protein 3 (IGFBP3) and keratinocyte growth factor (KGF) may be modulating enterocytic cell proliferation and differentiation.

[0148] Caco-2 cells have been shown to express the type I IL-1 R. (Varilek et al., 1994) II-1Rα binds IL-1 and mediates cell signalling particularly signalling involved in cell proliferation (French et al., 1996). The expression of IL-1 R can be enhanced by IFN-γ (Varilek et al., 1994). Therefore, the expression of IL-1 R type 1 mRNA in the co-culture is interesting when considering the significant expression of IFN-1 expressed in supernatants of the co-culture model.

[0149] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of cyclin D1, PLC-L, GRB2, ERK3/MAPK6, ERK1, ERK3, JNK2, CD40, CRAF1, C-MYC, PT-α, IL-R, PKC-α, GSTA1, GATA-2, and PLGF.

Differentiation

[0150] Development of cells or differentiation is dictated by the expression of a cell's genes specific to that cell. This is a particularly important aspect with regards to M cells.

[0151] The cortical cytoskeleton not only provides structural support to the plasma membrane but also contributes to important dynamic processes such as endocytosis, exocytosis, and transmembrane signalling pathways. Ezrin, or villin 2, is an F-actin associated molecule and is concentrated in surface projections such as microvilli and membrane ruffles where they link the microfilaments to the membrane and has been reported to be in abundance during development and differentiation of the intestinal epithelium. It was reported that hepatocyte growth factor (HGF/SF) could stimulate the tyrosine phosphorylation of ezrin in a human colon epithelial cell line, which induced the ezrin associated membrane ruffling. It is interesting to note that both hepatocyte growth factor activator (HGF activator) and hepatocyte growth factor-like protein were both upregulated in the co-culture model and taken with the augmented ezrin mRNA the induction of these genes would appear to underlie the mechanism involved in the morphogenesis observed in M-cells.

[0152] These data demonstrate that the expression of the ezrin gene is being regulated at the level of mRNA due to effects incurred by the B-cells. It is particularly relevant considering the observations of villin diffusely displayed in M-cells.

[0153] One method of actin cytoskeletal reorganization is controlled by the LIMK-1 serine/threonine kinase, which acts by phosphorylating cofilin and subsequently Rac (as previously reported). However, LIMK-1 was deleted in the co-culture model and would appear to rule out the Rac-mediated mechanism of actin reorganization in the M cell model.

[0154] The cadherin family of cell adhesion molecules play important role in cell-cell adhesion during tissue differentiation. They have been reported to be linked to the actin cytoskeleton by catenins located in the cytoplasmic compartment of the cell. The specific expression of NCAD in the co-culture suggests a distinct gene involved in the cytoskeletal structure.

[0155] Previous reports have shown that neogenin is closely related to the human tumor suppressor molecule DCC (deleted in colorectal cancer) and together they constitute a subgroup of Ig superfamily proteins that have shown to be essential for terminal differentiation of specific cell types in the adult including the human colon. These parallels suggest that neogenin, like DCC, is functionally involved in the transition from cell proliferation to terminal differentiation of specific cell types. Its absence in the co-culture model might represent a period of continued proliferation for the cells and allow a longer period of proliferation.

[0156] The helix-loop-helix (HLH) family of transcription factors has been shown by others to play a central role in the regulation of cell growth, differentiation and tumorigenesis. Of particular interest, when HLH 1 R21 was over-expressed in mouse NIH3T3 cells, it induced a morphologically transformed phenotype.

[0157] Other genes associated with differentiation including Myeloid cell nuclear differentiation antigen (MNDA) and the LHX1 gene. The LHX1 gene is a member of the LIM/homeobox (Lhx) gene family. It has been shown that it codes for a transcriptional regulatory protein involved in the control of differentiation and development.

[0158] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of HGF activator, ezrin, NCAD, MNDA, and LHX1.

Adhesion

[0159] It is clearly evident that modification of the M cell apical surface is a determining factor in M cell apical membrane adherence, and thus, uptake and transport of macromolecules/microorganisms and targeting epitopes on the surface of M cells has been used to promote further adherence and uptake of particles in vaccinology. The specificity of these markers is not only useful for vaccine strategies but also represents targets for understanding adhesion and uptake of bacteria and viruses. Adhesion is not privy to the apical surface. Adhesion molecules on the basolateral surface of M cells, such as cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4 are understood to be involved in leukocyte migration and in the development/organization of lymphoid nodules in Peyer's patches. Genes expressed/induced in the co-culture can provide an insight into the mechanisms involved and are discussed below.

[0160] The tyrosine kinase receptor TIE 1 is normally located in vascular endothelial and haematopoietic cells and is largely involved in the proliferation and differentiation of miniature haematopoietic cells and would be an appropriate gene specific for M cells. In the brain, TIE mRNA and protein is significantly elevated in lesions composed of abnormal vasculature called arterioyenous malformations (AVMs) and the surrounding vasculature. Like AVMs, the significant upregulation of TIE in M cells may indicate some ongoing neogenesis, and depending on the receptor's polarity could be of potential use in vaccine targeting.

[0161] The neuronal cell adhesion molecule L1 (NCAML1) is a transmembrane glycoprotein belonging to the immunoglobulin superfamily and is generally associated with development of the nervous system. As a potent promoter of neurite growth, it is allied with plastic changes. In nerve growth it interacts with the actin cytoskeleton via an ankyrin linkage and promotes specific distribution of F-actin. Such flexibility is ideal in the M cell scenario.

[0162] The integrin family consists of a series of related alpha beta heterodimers involved in a variety of cell-matrix and cell-cell adhesion functions. The α₃β₁ integrin is a multiligand extracellular matrix receptor found on many cell types and can function as a receptor for fibronectin, laminin, and collagen. Phagocytosis of molecules by breast cells has also been reported to involve this adhesion molecule, thus, it would appear a suitable candidate as an adhesion target on M cells.

[0163] The leukocyte adhesion glycoprotein p150 (CD11 C antigen), also a member of the integrin family, is involved in leukocyte sequestration via interaction of CD11/CD18 similar to that of ICAM-1.

[0164] In stratified epithelia p4 integrin (CD104 antigen) has been shown to be important for proper differential expression and crucial for stable adhesion to die basement membrane through its ability to attach externally to laminin and internally to the keratin cytoskeleton. Interestingly, during human intestinal organogenesis receptors have been shown to occur. This integrin would appear to play an important role in epithelial cell-matrix interactions during development but particularly in M cell development.

[0165] CD44 is a major surface adhesion molecule involved in cell-cell and cell-matrix interactions and lymphocyte homing and activation. The observed enhanced expression suggests that this molecule is an important feature in the activities of M cells. A non-receptor tyrosine kinase, C-src protooncogene (SRC1) has been shown to cause overexpression of CD44 in the intestine. As well as its effects on proliferation, the enhanced activity of SRC1 seen in the M cell model would appear to have major effects on cell adhesion properties of the M cell. Hepatocyte growth factor activator (HGF activator) is a serine protease produced and normally secreted by the liver. It has been documented as stimulating reparative processes in intestinal epithelial cells and could be why its activity is enhanced in this model. However, stimulation of CD44 in colonic epithelial cells has been reported to augment c-met, the HGF receptor. This in turn stimulates the “inside-out signalling causing an amplified expression of integrins that leads to an increase in vascular adhesion to the epithelium.

[0166] It has been reported that the glutamate receptor (NMDA) is generally associated with learning and memory, highly plastic processes in the brain. The high density of NMDA receptors reflects similar plastic changes seen in the co-culture model but would also act as a target epitope for drug delivery.

[0167] TKT is a tyrosine-kinase receptor related to TRK and is a member of cell adhesion kinase receptor family. Ephrin (type A) is a tyrosine kinase receptor that has been reported to be involved in neogenesis and tumor formation. Sp1 is a nuclear protein constitutively expressed and mediates basal promoter activity and is the main Vitamin-D receptor promoter in intestine. These are all potential target sites relevant to M cells.

[0168] Many of the receptors/cell surface antigen ‘deleted’ (not detectable) in the co-cultures could be putative negative markers of M cells. A good example is the laminin receptor a₇β₁ integrin. Expression of the a₇β₁ integtin correlates with human intestinal cell differentiation and could be used in a similar fashion that was applied with sucrase isomaltase and alkaline phosphatase.

[0169] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4, TIE, NCAML1, α3β1 integrin, CD11C antigen, CD104 antigen, CD44, NMDA, TKT, ephrin (type A), and Sp1.

Transport

[0170] The RAB proteins are reported to be regulators of polarized membrane traffic in epithelial cells. The RAB3B is localized to the apical pole very near the tight junctions between adjacent epithelial cells where it is reported to be a possible regulator of apical and/or jupctional protein traffic in epithelial tissues. RAB3B is highly homologous to a brain-specific RAB3 isoform (RAB3A) that targets the presynaptic nerve terminal, where it is reported to regulate exocytosis.

[0171] In polarized cells, the small GTPase Rab5a is localized to the plasma membrane, clathrin-coated vesicles, and early endosomes and is a regulator of transport between the plasma membrane and early endosomes. The decreased expression of RAB5a seen in the co-culture may deregulate the rate of endocytosis and/or vesicle fusion and could possibly release ‘the brake’ on vesicle trafficking.

[0172] RAB6 is another ras related protein also a regulator of intracellular transport in mammalian cells. It controls intra-Golgi transport, either acting as an inhibitor in anterograde transport or as a positive regulator of retrograde transport. Like RAB5a, the pronounced decrease seen in mRNA transcription could be a means of subverting transport regulation in epithelial cells and so optimize the process as observed in M cells.

[0173] Protein kinase C (PKC) and the actin cytoskeleton are critical effectors of membrane trafficking in mammalian cells. The F-actin cross-linking protein myristoylated alanine-rich C kinase substrate (MARCKS), a substrate for PKC, has been reported to be a component of the mechanism of endocytosis.

[0174] TIR or p71 plays a key role in the control of cell proliferation through the binding of transferrin, the major iron-carrier protein. Located on both apical and basolateral surfaces, the transferring receptor has the ability to internalize and recycle to the surface. Indeed experiments by Hughson and Hopkins (1990) demonstrate pathways from the apical and basolateral surfaces meet in an endosomal compartment. Furthermore, Shah and Shen (1994) discovered that the fungal metabolite brefeldin A (BFA) could relocate receptor distribution and enhance TfR mediated transcytosis. The increased expression of this mRNA in the M cell model suggests a potential delivery mechanism of protein drugs across the intestinal epithelium present in M cells that could be exploited.

[0175] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of a RAB protein, PKC, and TfR.

Signal Transduction

[0176] In order for a cell to respond to extracellular signals, which cause it to alter gene expression or cellular function, it must involve the activation of a signal transduction cascade. There are many different types of signalling cascades, which can be unique to a specific type of stimulus. There are two main mechanisms by which these cascades transmit their signal, either through the regulation of enzymes, which produce second messenger molecules or through the regulation of protein phosphorylation. The activation of these cascades is usually mediated through specific cell surface or intracellular receptor proteins. The receptor protein recognizes the incoming extracellular signal and responds accordingly, initiating a specific series of intracellular signal that direct the cell's behavior. A number of genes involved in intracellular signalling were upregulated or induced in the M cell model and are discussed below.

[0177] A member of the Janus family of tyrosine kinases, which are non-receptor protein kinases, Jak3 is involved in intracellular signalling mediated by cytokines and growth factors such as IL-2, IL-4, and IL-7. Jak3 has been reported to play a crucial role in Peyer's patch organogenesis. Mutant mice deficient in Jak3 presented defects in lymphocyte production and the absence of Peyer's patch structures. Its induced expression suggests a greater level of activity and possibly a major requirement underlying the M cell phenotype ‘switch’.

[0178] The nuclear zinc-finger transcription factor, early growth response factor-I (EGR-1) is an immediate-early gene product expressed in response to diverse stimuli and is involved in growth, development, and differentiation. EGR-1 has been reported to function in growth regulation and suppression of cell transformation by transactivation of the TGFβ gene. TGFβ is capable of stimulating the synthesis of extracellular matrix proteins that can potentially stabilize epithelial cell contact with the substratum. In addition EGR-1 also plays a role in the immune response, regulating targets such as IL-2, CD44, ICAM-1, and TNF. Taken together the considerable induction of EGR-1 mRNA emphasizes the importance of this protein's involvement in M cell behavior.

[0179] CaM kinase IV (CAMK IV) is involved in Ca2+-dependent mechanism for regulating MAP kinase pathways. Many kinases activity has been observed to be enhanced in this model and so it is logical that CAMK IV expression is induced as a requirement to function.

[0180] The tyrosine kinase Tnk1 has been reported to be involved in signalling pathways involving development in adult tissues and in cells of the lymphohaematopoietic system.

[0181] Epithelial discoidin domain receptor 1 (EDDR1) mRNA was reduced in the co-culture. EDDR1 is a collagen receptor involved in controlling cellular responses to the extracellular matrix (ECM). The decrease in this gene would implicate it in the reorganization of the M cell in relation to the ECM.

[0182] cAMP-dependent protein kinase type I beta regulatory subunit (PRKAR1 B) stimulates growth by modulating the signalling of camp via its regulation of cAMP-dependent protein kinase (PKA). PRKAR1 B's reduction in the co-culture model may represent an inhibitory role in the cell's growth counterbalancing the proliferative signals.

[0183] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of Jak 3, EGR-1, TNK1 and CAMK IV.

Protection and Repair

[0184] Chaperones such as HSP40 and HSP70 participate in many biological processes in which protein folding is involved. These include protein translocation, protein translation, protein assembly and disassembly, and protein degradation. It is understandable that such genes would be induced considering the evolving processes of a phenotype ‘switch.’ However heat shock protein production has been reported to be induced as a result of harsh changes in their environmental conditions such as stress, ishaemia or hypoxia resulting in protein damage. Therefore it cannot be ruled out that the induction of these genes is in fact a protective measure as a consequence of the adverse conditions in the co-culture.

[0185] HSP60 has been observed in highly replicating cells e.g. short-living epithelial cells of the intestine. Involved in the import and refolding of nuclear-encoded proteins destined for the mitochondrial matrix.

[0186] The 27-kDa heat shock protein (HSP27) is expressed in a variety of tissues, including gut epithelia and in the absence of stress has been reported to regulate actin filament dynamics. Hsp27 induction in the M cell model like the other heat shock proteins (IISPs) may be active in development of resistance to stressful conditions. Activation of HSP27 can contribute to agonist-induced phosphorylation-modulated reorganization of the actin cytoskeleton and, in the case of stress activation, provides an actin-based adaptive response of cells to the new environmental conditions, and is ideal candidate for the plasticity seen in M cells.

[0187] Expression of receptors for fMLP on human phagocyles is well established, but there is conflicting evidence regarding the potential expression of fMLP receptors on other cells within the mucosa, particularly the epithelial cells. The reported observation of the receptor for the chemotactic peptide fMLP supports the notion of the intestinal epithelial cell as an early “sensor” of infection and inflammation. It has been reported that, fMLP, present in abundance in the lumen of the gut and that activation of fMLP receptors induces cytotoxic effects such as lysosomal release and superoxide generation. Thus, it would appear that their presence would be a defensive role in the event of infection of microorganisms.

[0188] Glutaredoxin (thioltransferase) is a small, heat-stable protein catalyzing glutathione-dependent disulfide oxdoreduction reactions in a coupled system with NADPH, GSH and glutathione reductase. It is important in regulating cell metabolism through the inactivation of oxidated transcription factors thought to be important in cellular responses to oxidant stress. This modulation of transcription factors' binding activity has been demonstrated for a number of transcription factors, including NF-kB/Rel proteins, Fos and Jun proteins and nuclear factor I (NFI) family of transcription factors. The induction of such a gene would appear to provide a protective role and is particularly influential on a number of key transcription factors.

[0189] CREB has been implicated as having prominent role in protection. Over-expression of the gene was reported to reverse hypoxia elicited TNF induction. This infers that the increase in the cAMP responsive element binding protein (CREB) mRNA is possibly a protective response to conditions.

[0190] Inactive in cells under normal conditions, gadd153 expression is markedly induced in response to a variety of cellular stresses, including nutrient deprivation, DNA damage, and oxidative stress (e.g. free radicals) which normally leads to growth arrest. The arrest in growth is thought to allow critical repair processes to be carried out before any further cell cycling. It would appear that the gadd153 expression in the co-culture is for reparative purposes.

[0191] The excision repair proteins XPG and XPD have been reported to be involved in nucleotide repair. In addition, mRNA for ubiquitin-conjugating enzyme (likely to be involved in post-replication repair and induced mutagenesis, RAD23, and ataxia telangiectasia are also expressed in the co-culture. Their expression, coinciding with gadd153 suggests there is a high degree of impairment to genes in the M cell model.

[0192] Interleukin-13 (IL-13) is a potent anti-inflammatory cytokine and has been reported to have the same protective properties in inflammation as IL-4 through its ability to modulate and suppress pro-inflammatory cytokines. It is puzzling that in an environment with a high level of pro-inflammatory cytokines produced that IL-13 mRNA is in fact reduced. One possible explanation might be its anti-adhesion effect. It has been reported that IL-13 (secreted from lymhocytes) down regulated cell adhesion molecules in colonic epithelium and so the role of IL-13 in the co-cultured cells is modulating cell adhesion properties and not inflammation.

[0193] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group consisting of HSP40, HSP70, HSP60, HSO27, fMLP-related receptor, HSP27, glutaredoxin, CREB, gadd 153, XPG, XPD, ubiquitin, conjugating enzyme, RAD 23, and ataxia telengiectasia.

Apoptosis and Programmed Cell Death

[0194] In programmed cell death, apoptosis is programmed in the sense that a genetically directed ‘clock’ selects a given time for the death of certain cells. It has been reported that it provides an important mechanism for the maintenance and renewal of cells in the gut and in development. However, for the epithelium to maintain its barrier functions, the level of apoptosis needs to be regulated, and this is ‘checked’ by several signal transduction systems. Toxic insult or lack of factors that maintain cell survival can also lead to apoptotic death of the cell.

[0195] It has been reported that over-expression of c-fos and c-jun (constituents of the AP-1 transcription factor) in the intestine correlates with programmed cell death and subsequent cellular regeneration. Other studies have demonstrated increases in both proximal jejunum and colon jun mRNA level coincide with a period of major changes in intestinal cell proliferation). The c-jun protein product involved in activation of AP-1, transcription is enhanced when it is phosphorylated by stress-activated protein kinases of which there are many in the M cell model.

[0196] As intestinal epithelial cells reach the villus apex they undergo apoptosis and, are shed and, in normal circumstances, caspases, a family of cysteine proteases, play a central role in initiating, amplifying, and executing apoptosis. The pattern of caspase activation in this process is not understood. It is interesting to note that the apoptosis regulator, bcl-x, and caspase 9 are induced in the co-culture. The bcl-x gene plays an important role in the regulation of programmed cell death (PCD), depending on its splice variant the bcl-x protein can accelerate apoptosis or delay/prevent programmed cell death (as previously reported). Bcl-x controls apoptosis mechanisms at points upstream of caspase activation. Perhaps, it is responsible for the marked induction of caspase-9. Caspase-9 is a caspase initiator. Once activated, it can proteolytically activate other caspases (including 3, 6 and 7), which in turn activate caspase-2 and 6 (as previously reported). Inhibitor of apoptosis protein 2 (HIAP2) binds to and inhibits caspase-3. Its expression is a mechanism of regulating cell death depending on the particular cellular or environmental signals. Therefore, its absence in the co-culture cells and the increased activity of caspase-9 allows caspase-3 unchecked pro-apoptotic activity.

[0197] The death domain receptor 3 (DDR3) member of the TNFR family can induce apotosis as previously reported. Its mRNA expression is also reduced in the co-culture model.

[0198] In view of the foregoing, in the method of the invention for increasing the level of a protein in a PP cell, which comprises delivering a nucleic acid coding for a protein, the protein may be selected from the group selected from: bcl-x and capase-9 and more generally in view of the foregoing may be selected from the group consisting of

[0199] cyclin D1, PLC-L, GRB2, ERK3/MAPK6, ERK1, ERK3, JNK2, CD40, CRAF1, C-MYC, PT-α, IL-R, CD40, C-MYC, PKC-α, GSTA1, GATA-2, PLGF, ezrin, HGF activator, hepatocyte growth factor-like protein, NCAD, MNDA, LHX1, TIE-1, NCAML1, CD104, CD44, SRC1, NMDA, TKT, ephrin (type A), Sp1, RAB proteins, PKC, TIR, Jak3, EGR-1, TNK1, CAMK IV, HSP40, HSP70, HSP60, HSO27, fMLP-related receptor, HSP27, glutaredoxin, CREB, gadd153, XPG, XPD, ubiqitin-conjugating enzyme, RAD23, cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4, TIE, NCAML1, α3β1 integrin, CD11C antigen, CD104 antigen, CD44, NMDA, TKT, ephrin (type A), and Sp1, a RAB protein, PKC, and TfR, bcl-x and capase-9

Example 6 Targeted Gene Delivery

[0200] Delivery of genes, gene fragments, oligonucleotides or other nucleotide fragments or analogues of the present invention to a living organism can be accomplished by methods currently available in the prior art. For example, various recombinant viruses have been used for the oral delivery of genes, such as adenovirus, retrovirus, adeno-associated virus, vaccinia virus, lenti-virus and plant-derived viruses, wherein the viral genome is replaced with an expression vector for the gene of interest. See, David T. Page and Sally Cudmore (2001). Innovations in oral gene delivery: challenges and potentials. Drug Discovery Today, Vol. 6, No. 2, pp 92-101. Viral mimetic particles such as virosomes and various types of polymers and liposomes, such as cationic and fusogenic, are also employed for gene delivery. See, U.S. Pat. Nos. 4,885,172, 5,047,245, 5,171,578, 5,059,421, 5,399,331, 5,204,112, 1,252,263, 5,376,452, 5,552,155, 6,120,797, 6,087,325, 6,143,716. Examples of polymers are PLGA, PLA co-polymers, chitosan, and fumaric acid/sebacic acid co-polymers. For these systems, the polymer or liposome is formed from component parts in a solution of the gene expression vector, thus encapsulating the genes when particles are formed. Cationic lipids such as DOTAP and polyethylenimine are commonly used whereby the gene expression vector is complexed with and protected by the lipids. (See, Ogris M. et al. (2001). DNA/polyethylenimine transfection particles: Influence of ligands, polymer size, and pegylation on internalization and gene expression. AAPS PharmSci, 3 (3), article 21). Agents such as protamine are used to condense DNA, which due to the reduction in size of the DNA particles are more easily taken up by cells. Recombinant live bacteria (e.g. Shigella spp, Salmonella spp.) have also been exploited for gene delivery to the gut. Oral bioavailability enhancers, (e.g. sodium caprate, Elan's PROMDAS technology) could be used to increase uptake of a gene or encapsulated gene formulation.

[0201] In all cases the delivery systems can be targeted with various ligands on the surface of the particles in order to enhance binding to specific cells type and/or to enhance uptake. These ligands could be peptides, proteins, antibodies, peptidomimetics, and lipids that recognize or are being recognized by specific sites/receptors on the cell surface (Maruyama K. (2000). In vivo Targeting by Liposomes. Biol. Pharm. Bull., 23(7), 791-799).

[0202] The targeting ligands may be peptide based, peptidomimetic based, antibody based, single chain antibody based, small organic molecule based. The targeting ligands may also be natural substrates for such receptors, transporters or other cell surface molecules found on the surface of M cells or other cell types found in Peyer's patch. The targeting ligands may be engineered so as to be genetically expressed on the surface of viruses, bacteriophages, virosomes, bacteria or other organisms, which can be utilized for vaccine delivery in the gut. Furthermore the targeting ligands can be presented either as direct conjugates to antigens, or on the surface of drug-loaded particulates such as liposomes, PLGA particles, other particulates and at the same time retain recognition by and interaction with the receptors, transporters or other cell surface molecules found on the surface of M cells and/or other cells of Peyer's patch tissue.

[0203] Examples of peptides that target the gastro-intestinal tract, in particular, membrane translocating peptides useful for vaccine delivery to M cells along with M cell specific targeting ligands are described in Table 4.

[0204] Further, targeting ligands can be genetically engineered into the surface coats of viruses, bacteriophages or bacteria, conjugated directly to antigens conjugated to the lipids in liposomes by covalent methods or streptavidin-biotin linkages, or coated onto the surface of polymers after particle formation (Torchilin V. P. et al. (2001) Proc. Natl. Acad. Sci. USA, Vol. 98, Issue 15, 8786-8791, July 17.

[0205] TAT peptide on the surface of the liposomes affords their efficient delivery even at low temperature and in the presence of metabolic inhibitors; Lestini et al. (2002). Surface modification of liposomes for selective cell targeting in cardiovascular drug delivery. J. Controlled Release, 78, 235247; Dokka S. et al. (1997) Cellular delivery of oligonucleotides by synthetic import peptide carrier. Pharm. Res., vol. 14, No. 12, 1759-1764); Wu Y et al. (2000). Gene transfer facilitated by a cellular targeting molecule, retrovirus protein σ1. Gene Therapy, 7, 61-69).

[0206] When the delivery of the gene to M cells in the gut is designed to prime or boost the immune system, the genes can be co-delivered/co-encapsulated with adjuvants (e.g. MF59, alum, saponin, QS21, MPL, bacterial toxins such as Lt, CT or mutants there-of, CPG motif nucleotides). Immune response could be boosted at a later stage by methods such as subcutaneous administration of an adjuvant.

[0207] In some cases it may be desired to shut off expression of certain genes, so as to enhance the adoption by enterocytes of an M cell phenotype. This can be achieved by the delivery, by methods outlined above, of antisense oligonucleotides, ribozyme, or RNA-interference molecules specific to the gene of interest. TABLLE 4 Peptides that Target to and/or Enhance Uptake Across the GIT SEQ. ID NO: PEPTIDE SEQUENCES SEQ. ID NO: ADDFMGCMLTLPTSLGGEGSPYNYYDTHEANGPH SEQ. ID NO: TPTTTATWGTTGPVDLSSLHLLRHPCREF SEQ. ID NO: MSPDHQYALQSSPVLPCCRPLLVDSDYIHS SEQ. ID NO: RGYGRLAESCCVNRCIRTVGGCGNSPASDILSAT SEQ. ID NO: STPGRGSGRDTGANNPADTPYANPSHRDTILSLDPSLL SEQ. ID NO: RQHLWRDLHGPRFRDTNTGVAGTFSPPVSVADTHRTPD SEQ. ID NO: SFSNLTAGDEEDDHFSGGRFNHANLTSRSHNRGQLASSA SEQ. ID NO: RQSVLDSWGGKTSVTGLSERYYASHSHTSAPTPHYASHS SEQ. ID NO: RQWVGDRDAGEGNTWVDEKYSRDANVISYRSHNHASQGTL SEQ. ID NO: RASDCDVECNLRWVEDVGGVWYAKTVSRMLSTT SEQ. ID NO: RQSAGFLGFAPTNIDDTSFNAGCGDTLAIPCRHRSSLISPARPP SEQ. ID NO: RSGAYESPDGRGGRSYVGGGGGCGNIGRKHNLWGLRTASPACWD SEQ. ID NO: SPRSFWPWSRHESFGISNYLGCGYRTCISGTMTKSSPIYPRHS SEQ. ID NO: SSSSDWGGVPGKWRERFKGRGCGISITSVLTGKPNPCPEPKAA SEQ. ID NO: RVGQCTDSDVRRPWARSCAHQGCGAGTRNSHGCITRPLRQASAH SEQ. ID NO: SHSGGMNRAYGDVFRELRDRWNATSHHTRPTPQLPRGPN SEQ. ID NO: SPCGGSWGRFMQGGLFGGRTDGCGAHRNRTSASLEPPSSDY SEQ. ID NO: RGAADQRRGWSENLGLPRVGWDAIAHNSYTFTSRRPRPP SEQ. ID NO: SGGEVSSWGRVNDLCARVSWTGCGTARSARTDNKGFLPKHSSLR SEQ. ID NO: SDSDGDHYGLRGGVRCSLRDRGCGLALSTVHAGPPSFYPKLSSP SEQ. ID NO: RSLGNYGVTGTVDVTVLPMPGHANHLGVSSASSSDPPRR SEQ. ID NO: RTTTAKGCLLGSFGVLSGCSFTPTSPPPHLGYPPHSVN SEQ. ID NO: SPKLSSVGVMTKVTELPTEGPNAISIPISATLGPRNPLR SEQ. ID NO: RWCGAELCNSVTKKFRPGWRDHANPSTHHRTPPPSQSSP SEQ. ID NO: RWCGADDPCGASRWRGGNSLFGCGLRCSAAQSTPSGRIHSTSTS SEQ. ID NO: SKSGEGGDSSRGETGWARVRSHAMTAGRFRWYNQLPSDR SEQ. ID NO: RSSANNCEWKSDWMRRA.CIARYANSSGPARAVDTKAAP SEQ. ID NO: SKWSWSSRWGSPQDKVEKTRAGCGGSPSSTNCHPYTFAPPPQAG SEQ. ID NO: SGFWEFSRGLWDGENRKSVRSGCGFRGSSAQGPCPVTPATIDKH SEQ. ID NO: SESGRCRSVSRWMTTWQTQKGGCGSNVSRGSPLDPSHQTGHATT SEQ. ID NO: REWRFAGPPLDLWAGPSLPSFNASSHPRALRTYWSQRPR SEQ. ID NO: RMEDIKNSGWRDSCRWGDLRPGCGSRQWYPSNMRSSRDYPAGGH SEQ. ID NO: SHPWYRHWNHGDFSGSGQSRHTPPESPHPGRPNATI SEQ. ID NO: RYKHDIGCDAGVDKKSSSVRGGCGAHSSPPRAGRGPRGTMVSRL SEQ. ID NO: SQGSKQCMQYRTGRLTVGSEYGCGMNPARHATPAYPARLLPRYR SEQ. ID NO: SGRTTSEISGLWGWGDDRSGYGWGNTLRPNYIPYRQATNRHRYT SEQ. ID NO: RWNWTVLPATGGHYWTRSTDYHAINNHRPSIPHQHPTPI SEQ. ID NO: SWSSWNWSSKTTRLGDRATREGCGPSQSDGCPYNGRLTTVKPRT SEQ. ID NO: SGSLNAWQPRSWVGGAFRSHANNNLNPKPTMVTRHPT SEQ. ID NO: RYSGLSPRDNGPACSQEATLEGCGAQRLMSTRRKGRNSRPGWTL SEQ. ID NO: SVGNDKTSRPVSFYGRVSDLWNASLMPKRTPSSKRHDDG SEQ. ID NO: TNAKHSSHNRRLRTR SEQ. ID NO: SDNAKEPGDYNCCGNGNSTG SEQ. ID NO: RTRLRRNHSSHKANT SEQ. ID NO: PEPTIDE SEQUENCES SEQ. ID NO: GPHRRGRPNSRRSSKT SEQ. ID NO: GTSNGNGCCNYDGP Pevers patch and/ or M cell specific targeting ligands: SEQ. ID NO: ATPPPWLLRTAP SEQ. ID NO: DGSIHKRNIMPL SEQ. ID NO: DYDSLSWRSTLH SEQ. ID NO: GEPTTDMRWRNP SEQ. ID NO: GLWPWNPVTVLP SEQ. ID NO: HMLNDPTPPPYW SEQ. ID NO: KPAYTHEYRWLA SEQ. ID NO: LETTCASLCYPS SEQ. ID NO: LGTDWHSVSYTL SEQ. ID NO: LGTLNAGVPGFP SEQ. ID NO: LTHSKNPVFLST SEQ. ID NO: LVPTTHRHWPVT SEQ. ID NO: LVSNARGFNNLS SEQ. ID NO: NTRIPEPIRFYM SEQ. ID NO: NVYTFHSMSPMP SEQ. ID NO: QHTTLTSHPRQY SEQ. ID NO: SDFSDTMPHRPS SEQ. ID NO: SIDTIQILSLRS SEQ. ID NO: SISWASQPPYSL SEQ. ID NO: SMVKFPRPLDSR SEQ. ID NO: SPTLGASVAQTN SEQ. ID NO: TMSPNVYYTAFG SEQ. ID NO: TQIPSRPQTPSQ SEQ. ID NO: VCSNMYFSCRLS SEQ. ID NO: VPPHPMTYSCQY SEQ. ID NO: VPRLEATMVPDI SEQ. ID NO: VPTKPELPVNFT SEQ. ID NO: WSSDLPQPASTY SEQ. ID NO: YITPYAHLRGGN SEQ. ID NO: NVYTDNTLSPTP SEQ. ID NO: LETTAASLCYPS SEQ. ID NO: SPYCLSACTTEL SEQ. ID NO: LETTCASLCYPS SEQ. ID NO: VPPHPMTYSCQY SEQ. ID NO: VPPHPMTYSAQY SEQ. ID NO: VPPHPMTYSSQY SEQ. ID NO: YQCSYTMPHPPV SEQ. ID NO: VCSNMYFSCRLS SEQ. ID NO: VSSNMYFSSRLS SEQ. ID NO: DYDSLSWRSTLHGGHESSH SEQ. ID NO: GNPTSTMRW SEQ. ID NO: PWNSATVL SEQ. ID NO: NDPTAPPY Membrane Translocating Peptides: (underline denotes cyclization) SEQ. ID NO: KKAAAVLLPVLLAAPFITC-LC SEQ. ID NO: KKKAAAVLLPVLLAAP SEQ. ID NO: KKAAAVLLPVLLAAPREDL SEQ. ID NO: KKCAAVLLPVLLAAPC SEQ. ID NO: CAAVLLPVLLAAC SEQ. ID NO: KKCAAVLLPVLLAC SEQ. ID NO: CAAVLLPVLLC SEQ. ID NO: CAAVLLPVLC SEQ. ID NO: CAVLLPVLLAAPC SEQ. ID NO: CVLLPVLLAAPC SEQ. ID NO: CLLPVLLAAPC SEQ. ID NO: CLPVLLAAPC SEQ. ID NO: AAVLLPVLLAAP SEQ. ID NO: AAVLLPVLLAA SEQ. ID NO: KKAAVLLPVLLA SEQ. ID NO: AAVLLPVLL SEQ. ID NO: AAVLLPVL SEQ. ID NO: AVLLPVLLAAP SEQ. ID NO: VLLPVLLAAP SEQ. ID NO: LLPVLLAAP SEQ. ID NO: LPVLLAAP SEQ. ID NO: AAVLLPVLLAAKKKRKA SEQ. ID NO: KKKRKAAAAVLLPVLLA

Example 7

[0208] Use of Bacterial Coatings to Convert Enterocytes to M Cells

[0209] Might be nice to have some type of claim capturing the concept from this section Use of bacterial coatings on PLGA particles, co-administered bacterial particles or pro-biotic yogurts as adjuvants for oral vaccination with PLGA particles. The invention is based on converting enterocytes to M cells by using specific bacteria in advance of, or along with the oral vaccine particle of interest. In doing so the capability of absorbing particles through M cells will be increased. This idea is not based on targeting but on the ability of live bacteria or active bacterial components to stimulate cytokine production in Peyer's patches, thus, enabling enterocyte-M cell conversion. As a result, an invention disclosed herein is a method of promoting enterocyte-M cell conversion, said method comprising orally administering an antigen, antigenic composition, or antigen-carrying particle to a person and either simultaneously with, or prior to, said administration, also orally administering a bacteria, or pro-biotic yogurts, or bacterial component to said person.

[0210] All references cited herein are incorporated herein by reference in their entireties. TABLE 5 Miscellaneous GenBank Accession Numbers Human Serum Albumin NM_000477.3 Calreticulin M84739

Dates for GenBank Records

[0211] To the extent the date of a GenBank record, ratherthan its version number, is relevant for purposes of incorporation by reference, the date of the record is the filing date of this application with the following exceptions: TABLE 2 Rat genes Mar. 27, 2002 D83697 through M10149 Mar. 28, 2002 Q03238 through NM_017218.2 TABLE 3 Human genes with a fold change of 0.5 or less Apr. 02, 2002 TABLE 2 Human genes with a fold change of 0.5 or less Apr. 02, 2002 U76376.1 through XM_087242.1 Apr. 03, 2002 S90469 through M29366.1

[0212] The records specified for Mar. 27, 2002, Mar. 28, 2002, Apr. 2, 2002, and Apr. 3, 2002, do not include those of GenBank IDs: Q07912, P21145, P46734, Q92851, Q13490, NP_(—)006168, P28360, P28347, Q06830, P20701, P01589, P05106, P35225, P17936, S18408, P17074, P10661, P35426, P09456, P22791, Q06486, P21708, Q03238, P10644, P54868, P10398, P48730, P31749, P27361, P25063, Q14012, P13866 AMINO ACID SEQUENCES AND NUCLEOTIDE SEQUENCES CORRESPONDING TO SELECTED CENBANK ID NUMBERS GENBANK ID: M81750 VERSION M81750.1 GI:895928 MVNEYKKILLLKGFELMDDYHFTSIKSLLAYDLGLTTKMQEEYN RIRITDLMEKKFQGVACLDKLIELAKDMPSLKNLVNNLRKEKSKVAKKIKIQEKAPVK KINQEEVGLAAPAPTARNKLTSEARGRIPVAQKRKTPNKEKTEAKRNKVSQEQSKPPG PSGASTSAAVDHPPLPQTSSSTFSNTSFTPNQETQAQRQVDARRNVPQNDFVTVVVLK ATAPFKYESPENGKSTNFHATVASKTQYFHVKVPDINLKEKFVRKKVITISDYSECKC VMEIKEASSVSDFNQNFEVPNRIIEIANKTPKISQLYKQASGTMVYGLFMLQKKSVHK KNTIYEIQDNTGSMDVVGSGKWENIKCEKGDKLRLFCLQLRTVDRKLKLVCGSHSFIK VIKAKKNKEGPMNVN GENBANK ID: X59798 VERSION X59798.1 GI:35631 MEHQLLCCEVETIRRAYPDANLLNDRVLRAMLKAEETCAPSVSY FKCVQKEVLPSMRKIVATWMLEVCEEQKCEEEVFPLAMNYLDRFLSLEPVKKSRLQLL GATCMFVASKMKETIPLTAEKLCIYTDNSIRPEELLQMELLLVNKLKMNLAAMTPHDF IEHFLSKMPEAEENKQIIRKHAQTFVALCATDVKFISNPPSMVAAGSVVAAVQGLNLR SPNNFLSYYRLTRFLSRVIKCDPDCLRACQEQIEALLESSLRQAQQNMDPKAAEEEEE EEEEVDLACTPTDVRDVDI GENBANK ID: L27211.1 VERSION L27211.1 GI:558656 MEPAAGSSMEPSADMLATAAARGRVEEVRALLEAGALPNAPNSY GRRPIQVMMMGSARVAELLLLHGAEPNCADFATLTRPVNDAAREGFLDTLVVLHRAGA RLDVRDAWGRLPVDLAEELGHRDVARYLRAAAGGTRGSNHARIDAAEGPSDIPD GENBANK ID: U22398 VERSION U22398.1 GI:790247 MSDASLRSTSTMERLVARGTFPVLVRTSACRSLFGPVDNEELSR ELQARLAELNAEDQNRWDYDFQQDMPLRGPGRLQWTEVDSDSVPAFYRETVQVGRCRL LLAPRPVAVAVAVSPPLEPAAESLDGLEEAPEQLPSVPVPAPASTPPPVPVLAPAPAP APAPVAAPVAAPVAVAVLAPAPAPAPAPAPAPAPVAAPAPAPAPAPAPAPAPAPAPDA APQESAEQGANQGQRGQEPLADQLESGISGRPAAGTAAASANGAAIKKLSGPLISDFF AKRKRSAPEKSSGDVPAPCPSPSAAPGVGSVEQTPRKRLR GENBANK ID: X51521 VERSION X51521.1 GI:31282 MPKPINVRVTTMDAELEFAIQPNTTGKQLFDQVVKTIGLREVWY FGLNYVDNKGFPTMLKLDKKVSAQEVRKENPLQFKFRAKFYPEDVAEELIQDITQKLF FLQVKEGILSDEIYCPPETAVLLGSYAVQAKFGDYNKEVEKSGYLSSERLIPQRVMDQ HKLTRDQWEDRIQVWHAERRGMLKDNAMLEYLKIAQDLEMYGINYFEIKNKKGTDLWL GVDALGLNIYEKDDKLTPKIGFPWSEIRNISFNDKKFVIKPIDKKAPDFVFYAPRLRI NKRILQLCMGNHELYMRRRKPDTIEVQQMKAQAREEKHQKQLERQQLETEKKRRETVE REKEQMMREKEELMLRLQDYEEKTKKAERELSEQIQRALQLEEERKRAQEEAERLEAD RMAALRAKEELERQAVDQIKSQEQLAAELAEYTAKIALLEEARRRKEDEVEEMQHRAK EAQDDLVKTKEELHLVMTAPPPPPPPVYEPVSYHVQESLQDEGAEPTGYSAELSSEGI RDDRNEEKRITEAEKNERVQRQLVTLSSELSQARDENKRTRNDIIHNENMRQGRDKYK TLRQIRQGNTKQRIDEFEAL GENBANK ID: L04143.1 VERSION L04143.1 GI:180574 THIS ENTRY IS NOT CONTIGUOUS CENOMIC DNA. IT CONTAINS NUMEROUS PIECES OF INTRONS. 1 GAGCTCGGAT CCCATCGCAG CTACCGCGAT GAGAGGCGCT CGCGGCGCCT GGGATTTTCT 61 CTGCGTTCTG CTCCTACTGC TTCGCGTCCA CACAGGTGGG ACACCGCGGC TGGCTCCCCC 121 ACCGTGCCAC TACTCGCGAA CCCTGTGCCC TGGGAGGGTG CTACCGCCAT GGCATCCGCA 181 GACAGGACTG CGGGCCCTCA GTGGGCCTGC GTTCCAGCCT CCGGGGAGAC TCCAGGTGGC 241 CCTCGGACTC TCCGGCGCCC TGCCTCGCTC ACCTGCGCGA GGAGACCCCA GCTGCTGGTG 301 GTGGGGGACG CGAATCCGGG GTTCTTCGGG AATGGGGACA GCAAGAGGGG GTTAGGCGTG 361 AGCGAGGCTG CAGGCTCCGT GCGAGTTTGG GGTGGCTTTT GTGCCGACGT TGCGCGGGGG 421 CGGAGGCGGG GGCTCAGGGT TTGCACCGAG CGCCTTCTCT CTCGGTGCGA GGCCGGCCGC 481 AGCTTCCTTT TGTTAAAAGT TGCGTGTGTG TGACGGCGCC CGGGCTGCAG CCTCAACCTC 541 CTGGGCTTAA GTGATCTCCC ACCTCAGCCT CCCGCCTCAG CCTCCCATGT AGCTGGGAAA 601 ACAGGTTCCC ACTACCATGC CCAGCTAATG TTTTTTCTAG TTTTTGTAGA TGTGTTGGGC 661 GGTGGGGGCG TCTCACTGCG TTGCCCAGGC TGGTCTCGAA CTCCTAGGCT CAAGCAATCT 721 TCCCACCTCA GCCTCCCAGA GTGCTGGGAT TACAGGCGTG ACGACGGCAC CTGGCCAGCA 781 GTTTGTTCTT TAAACCCTGA AATGTATGTG AGGACCATGT GTCACACTAG CATGGACGTT 841 TTCCCAGCAT CTAGCATGGT GCTTTGTAGA TGATAATTAA TGAATAGGTA TTTGAATACA 901 TGGAGGCATG CATGGCTGAA TGAAGTGGCT GTTGTAAAAT TTCTAGGGTT CAGGTTTCAT 961 ATTCAGAGCC TAAAGTTTGC ATCTTATAAA CTAAATAGTT TCCTATCTAG GAAACCTATT 1021 TAGGCATTAG GGTGTTAAAA CAGGTGTATC ATTTTCTGCC TTAGTGTTTA GAGATTTGTG 1081 AATAGTTCTC CTTTTGATGA ACATTGCCAT GTAAAGAGAG TTATACAGAA ATAACTGAAT 1141 TCACACAGTT TTAAGGAAAA GCTATTCTAT GTCATGGTCA TGTATATTCT GCCAAAGAGA 1201 GTGACAGGCC AGTAGTTTCT TTTTTCTTTT TCCCCATAGT GTGAGATTTT GTTTCTGTTG 1261 TTTCTAAGCT GGGTGTCTGC ATGTCCACAC TGCGAAGATG GCCCATATCA GAATGAAAAC 1321 TTGACCCAAT TGTATGTTTA GCCCAGAGAA GGCTGGGGCA TTCAGCACAT CCTGGCTTGG 1381 GGACCAAATG TGACCCTCAG GATTAATTGA GGGTTGGAGA AAATAATTTT ATAGATGAAC 1441 TTAAGACATT TTAGACAGAA CTCTCTTTTC AGCCATAAAT AGCAGGGCAG CTTTGTCCTA 1501 TTTTTATTGT AGAGTACACA GAAGATGGAA CTCAGTATTG GAAGAAGTGC TTTATTTCGC 1561 CAAGGAAGAA GATCATACTC AACACGATTC TGTTTTTCTT GGCAGGCTCT TCTCAACCAT 1621 CTGTGAGTCC AGGGGAACCG TCTCCACCAT CCATCCATCC AGGAAAATCA GACTTAATAG 1681 TCCGCGTGGG CGACGAGATT AGGCTGTTAT GCACTGATCC GGGCTTTGTC AAATGGACTT 1741 TTGAGATCCT GGATGAAACG AATGAGAATA AGCAGAATGA ATGGATCACG GAAAAGGCAG 1801 AAGCCACCAA CACCGGCAAA TACACGTGCA CCAACAAACA CGGCTTAAGC AATTCCATTT 1861 ATGTGTTTGT TAGAGGTAAA TGCTTGGCTT TCTGCAGCAG GTCATGTCAC TTTAGGAGGG 1921 TTGCTTTTAT GACACCGCAG TTTCATCTAT GAAATGGCAA TAATGATAGT ACTGATCATG 1981 GGAGGGGCAA TTTGAAGATT AAATGAGATT AAGTGTAATG GTCCAAGCTT AGTGCGTGAT 2041 ACATGGAAAG CGTTTAATAA ATGTTAATTC TCAATAGTAC TAGATGGATA AATTTTGCTT 2101 TTGTTTACAC AGAAAAAAGC AGCCATTTGG GCCACTAGTC ATGAAAGGCA ACATATTAGA 2161 TCTTTAAAAG TGTTTCAGTG TCTGTGACCA GCCATTCCAA CTACTGATTT GGATATGCTT 2221 CTTATAGATC CTGCCAAGCT TTTCCTTGTT GACCGCTCCT TGTATGGGAA AGAAGACAAC 2281 GACACGCTGG TCCGCTGTCC TCTCACAGAC CCAGAAGTGA CCAATTATTC CCTCAAGGGG 2341 TGCCAGGGGA AGCCTCTTCC CAAGGACTTG AGGTTTATTC CTGACCCCAA GGCGGGCATC 2401 ATGATCAAAA GTGTGAAACG CGCCTACCAT CGGCTCTGTC TGCATTGTTC TGTGGACCAG 2481 GAGGGCAAGT CAGTGCTGTC GGAAAAATTC ATCCTGAAAG TGAGGCCAGG TACCTTGCTT 2521 TCTTATCTGC CTCTGGAGTT GAGAACTCAC TTATCTAAAG AGACTTCTCT TCTCGTTGAT 2581 CGTAAGCTGT ACACATTTGA GGAGAAATGG TAAATCAAAA TTTCATGCTA TAATACAAAT 2641 TATTTGAGGG GCCACATTTC TTTTCATTCT AGCCTTCAAA GCTGTGCCTG TTGTGTCTGT 2701 GTCCAAAGCA AGCTATCTTC TTAGGGAAGG GGAAGAATTC ACAGTGACGT GCACAATAAA 2761 AGATGTGTCT AGTTCTGTGT ACTCAACGTG GAAAAGAGAA AACAGTCAGG TGAGTGAATC 2821 GCTTCATTCT TCTCATGTTC TGTCTCTGTG GGAGATGATA AGTTTTCTCT TTCAGAAGAG 2881 TCTGTCCTGA AACTGCCTCG ACTAGTGCGT CTGTCAGAGG AGAAGTTAAT TGCTGCTATT 2941 TTTAATTTAT CTAGGAAAGA TTCTGAATAT AAATTATATG GTAATCTTCA TTTTTTTTTC 3001 TCCTTTTCTG AAACCAGCAG ACTAAACTAC AGGAGAAATA TAATAGCTGG CATCACGGTG 3061 ACTTCAATTA TGAACGTCAG GCAACGTTGA CTATCAGTTC AGCGAGAGTT AATGATTCTG 3121 GAGTGTTCAT GTGTTATGCC AATAATACTT TTGGATCAGC AAATGTCACA ACAACCTTGG 3181 AAGTAGTAGG TAAATACCTC TATGGGAATG TTTAAATTAC TGGCAGTAGT GAAAGAAGAA 3241 ATTATTAGAC AGTTTCTTTT TTATGTAAAT GGAATGTTGA ACAGATTCTT AGAATTTTGT 3301 TATCACTGAA TGAATGAAAA TTATCCTTGT AGCCTCTTGC AATGAAAGCA CAATTCTGTT 3361 TTTTTTGTCC AGTAGTTGTA GATAATGTTT CTTTCTGTCT TATTTCATTC TAATTAGATA 3421 AAGGATTCAT TAATATCTTC CCCATGATAA ACACTACAGT ATTTGTAAAC GATGGAGAAA 3481 ATGTAGATTT GATTGTTGAA TATGAAGCAT TCCCCAAACC TGAACACCAG CAGTGGATCT 3541 CTCTGAACAG AACCTTCACT GATAAATGGG AAGATTATCC CAAGTCTGAG AATGAAAGTA 3601 ATATCAGGTA AGAAATGGAC CTTGCCCTGG GGATTACACA TTACCCCCTT TTCCAGTGGG 3661 CTTATCAGAT CTTATTTCTG TAACCCGTAA ATCCACGAGA AGATACCTGG TAAAGAAGAA 3721 AGTCTATTTT GCTAATACTT TACTGAATTA AATGAGTTAT ATTTTTCCTC AAACAGGCAT 3781 AGATTTCCAG GTAGAAACTG AAAAAGACAT GCCTTCCAAG GCATGCTATC CACAGGTGAT 3841 TGACTAGTTG TCTTTTCTTT GTAGATACGT AAGTGAACTT CATCTAACGA GATTAAAAGG 3901 CACCCAAGGA CCCACTTACA CATTCCTAGT GTCCAATTCT GACGTCAATG CTGCCATAGC 3961 ATTTAATGTT TATGTGAATA GTAACTAACA TGAAGGGCTC TTTTAATTTT TTATTCTTTT 4021 AAGTTGTGGC TCGTGTTTGT AACAGCTGCA AGGACTCAAC TTGCTGTACT AAAGGTTGTA 4081 CGGATTTAGA GAGGGAGTGA AGTGAATGTT GCTGACGTTT TCCAGCACTC TGACATATGC 4141 CCATTTCTGT TTTCCTGTAG CAAAACCAGA AATCCTGACT TACGACAGGC TCGTGAATCC 4201 CATGCTCCAA TGTGTGGCAC CAGGATTCCC AGAGGCCACA ATAGATTGGT ATTTTTGTCC 4261 AGGAACTGAG CAGAGGTGAG ATGATTATTT TTGGCACTGC TTATAATGCA GAGGGGAAGG 4321 ACTGCAATTC ACTTGAATTT CAAATATGTT TTCTGATTTT TTTTAAAAAA GCTTTAACTT 4381 TGTTTTAAAA GTATGCCACA TCCCAAGTGT TTTATGTATT TATTTATTTT CCTAGAGTAA 4441 GCCAGGGCTT TTGTTTTCTT CCCTTTAGAT GCTCTGCTTC TGTACTGCCA GTGGATGTGC 4501 AGACACTAAA CTCATCTGGG CCACCGTTTG GAAAGCTAGT GGTTCAGAGT TCTATAGATT 4561 CTAGTGCATT CAAGCACAAT CGCACGGTTG AATGTAAGGC TTACAACGAT GTGGGCAAGA 4621 CTTCTGCCTA TTTTAACTTT GCATTTAAAG GTAACAACAA AGGTATATTT CTTTTTAATC 4681 CAATTTAAGG GGATGTTTAG GCTCTGTCTA CCATATCAGT CATGATTTTG AGCTCAATTA 4741 ACCCTCACTA AAGGGAGTCG ACTCGATCCC ATCCTGCCAA AGTTTGTGAT TCCACATTTC 4801 TCTTCCATTG TAGAGCAAAT CCATCCCCAC ACCCTGTTCA CTCCTTTGCT GATTGGTTTC 4861 GTAATCGTAG CTGGCATGAT GTGCATTATT GTGATGATTC TGACCTACAA ATATTTACAG 4921 GTAACCATTT ATTTGTTCTC TCTCCAGAGT GCTCTAATGA CTGAGACAAT AATTATTAAA 4981 AGGTGATCTA TTTTTCCCTT TCTCCCCACA GAAACCCATG ATGAAGTACA GTGGAAGGTT 5041 GTTGAGGAGA TAAATGGAAA CAATTATGTT TACATAGACC CAACACAACT TCCTTATGAT 5101 CACAAATGGG AGTTTCCCAG AAACAGGCTG AGTTTTGGTC AGTATGAAAC AGGGGCTTTC 5161 CATGTCACCT TTTTGGGTAC ACATAACAGT GACTTTAAGG AACTCCAGTG GCTTCCTTTG 5221 TTTTGTTCCA CCTGAAACAA TGAGTTTTCT GTGAAATTGC GCCCCTTTTG ATAGGTTTGC 5281 CATAGAGAAC ATCGTAGGAA AATGTCTCTG GACAACATTG TTTTTAATTC CTTTATTGAT 5341 TTTGAAACTG CACAAATGGT CCTTCAATTC CACCACCAGC ACCATCACCA CTTACCTTGT 5401 TGTCTTCCTT CCTACAGGGA AAACCCTGGG TGCTGGAGCT TTCGGGAAGG TTGTTGAGGC 5461 AACTGCTTAT GGCTTAATTA AGTCAGATGC GGCCATGACT GTCGCTGTAA AGATGCTCAA 5521 GCGTAAGTTC CTGTATGGTA CTGCATGCGC TTGACATCAG TTTGCCAGTT GTGCTTTTTG 5581 CTAAAATGCA TGTTTCCAAT TTTAGCGAGT GCCCATTTGA CAGAACGGGA AGCCCTCATG 5641 TCTGAACTCA AAGTCCTGAG TTACCTTGGT AATCACATGA ATATTGTGAA TCTACTTGGA 5701 GCCTGCACCA TTGGAGGTAA AGCCGTGTCC AAGCTGCCTT TTATTGTCTG TCAGGTTATC 5761 AAAACATGAC ATTTTAATAT GATTTTGGCA ATGCTAGATT ATAAACTGCT TGGAACATTT 5821 TTTTACCCAG ACTGTTGTTC TCTCTTGCTA GATTTTGTTT TCCTCATTGT TCTTAAGAAT 5881 ATATGGGATT GTATTGGGAC TAAGTAGTCT GATCCACTGA AGCTGAATAT TAATGGCCAT 5941 GACCACCCTT GGGTATTTTT ATGGGAGGCA GAATTAATCT ATATATCTCA CCTTCTTTCT 6001 AACCTTTTCT TATGTGCTTT TACCGCCGAC CCTGGTCATT ACAGAATATT GTTGCTATGG 6061 TGATCTTTTG AATTTTTTGA GAAGAAAACG TGATTCATTT ATTTGTTCAA AGCAGGAAGA 6121 TCATGCAGAA GCTGCACTTT ATAAGAATCT TCTGCATTCA AAGGAGTCTT CCTGGTAAGA 6181 CTGATTTACA TAAATAGTTA GCTGTTGACA GGCAGTTCAT GGGGAACTCT TTATTCAAAC 6241 TTTACATGAC TTTCCTCAAA TTGGTCCAGT CTATTATGTA GCAAAGGGGA TGAGGAGGTA 6301 GAGCATGACC CATGAGTGCC CTTCTACATG TCCCACTTGA TTCAGTCATG ACTTGTTTCA 6361 TCTCTCCCAG CAGCGATAGT ACTAATGAGT ACATGGACAT GAAACCTGGA GTTTCTTATG 6421 TTGTCCCAAC CAAGGCCGAC AAAAGGAGAT CTGTGAGAAT AGGTCAGTAC CTACCTATCA 6481 AGCAACCAAG AGTAACTTTA CAGAGAGTAT GTATATCATG CTAATGTGGA ATATAACATC 6541 ATTCCAGTAG CAATGATGCA GACCAGTTCT GCTTTATGGT AGCAGTGCCA ATGGTCAATG 6601 GCAGTTAGGG GCAAGTTCAC ATTAGTTCAT TGATTACCAG CCTTTGGTAT GTCATTGCCA 6661 CTGTCTTTTC CTTTCCTGAC CTTTATGGTT GTAATTGCTA AGAAAAATCC TCTCTTCCTC 6721 ACAGGCTCAT ACATAGAAAG AGATGTGACT CCCGCCATCA TGGAGGATGA CGAGTTGGCC 6781 CTAGACTTAG AAGACTTGCT GAGCTTTTCT TACCAGGTGG CAAAGGGCAT GGCTTTCCTC 6841 GCCTCCAAGA ATGTAAGTGG GAGTGATTCT CTAAAGAGTT TTGTGTTTTG TTTTTTTGAT 6901 TTTTTTTTTT TTTTTTTTTT TTTTGAGAAC AGAGCATTTT AGAGCCATAG TTAAAAGCAG 6961 AATGTCATTT AAAACAAAAG TATTGGATTT TTTATAATAT AAGCAACACT ATAGTATTAA 7021 AAAGTTAGTT TTCACTCTTT ACAAGTTAAA ATGAATTTAA ATGGTTTTCT TTTCTCCTCC 7081 AACCTAATAG TGTATTCACA GAGACTTGGC AGCCAGAAAT ATCCTCCTTA CTCATGGTCG 7141 GATCACAAAG ATTTGTGATT TTGGTCTAGC CAGAGACATC AAGAATGATT CTAATTATGT 7201 GGTTAAAGGA AACGTGAGTA CCCATTCTCT GCTTGACAGT CCTGCAAAGG ATTTTTAGTT 7261 TCAACTTTCG ATAAAAATTG TTTCCGTGAC TTTCATAATG TAAATCCTGT CTAGGGATAT 7321 CACACATTTT AGCAGTCAAA TGTATTTCAG AGGTGATTGG GATCATCTGA GTTCATATAG 7381 GTAAAAGGTT TTTGTGAGAT GGTACTCAAG TTATCACTCC ACATTTCAGC AACAGCAGCA 7441 TCTATAAGAA TATCTTCTGT TCAATTTTGT TGAGCTTCTG AATTAACATT ATTGACTCTG 7501 TTGTGCTTCT ATTACAGGCT CGACTACCTG TGAAGTGGAT GGCACCTGAA AGCATTTTCA 7561 ACGTGTATAC ACGTTTGAAA GTGACGTCTG GTCCTATCGG ATTTTTCTTT GGGAGCTGTT 7621 CTCTTTAGGT AAAATGATCC TTGCCAAAAG ACAACTTCAT TAGACTCAGA GCATCTTGAA 7681 GTTTCATTGG TGTCCTGCTT CCTTGTGATT AACACTGCTT TGCAAACTGT GTCTCAGGAA 7741 GCAGCCCCTA TCCTGGAATG CCGGTCGATT CTAAGTTCTA CAAGATGATC AAGGAAGGCT 7801 TCCGGATGCT CAGCCTGAAC ACGCACCTGC TGAAATGTAA GAGCCAAAAA ATTTTTCCTT 7861 TAGGTCACGT TTTCCCTTTT ATTTTTCTTT TTAGAGACAG AAACCCAGAT GTTGAGGGTT 7921 TTCATAACAC AGTTTGAAAT GTCACTTCCA TTCTTTATGA CACACTGGTC AAATGTCATT 7981 TCTCTAGTTT ATTTTCATAA TCTCTTGTCA CCAAAAATAC AGAAAGTTTC AGTAATATTT 8041 CATACATGCA GTGTTTTATG TTATCTATAT GTCAGTCCAT ATGTCCAGTT GCATAGCCCT 8101 CGAATTATTA CTGAAGTTGC TGGATGCCCA TACATTTGAA AACAACCTCA GGGCATTGAC 8161 GAGGGATAGT AAATGGCCCT TGTCTTGCAG GTATCACATA ATGAAGACTT GCTGGGATGC 8221 AGATCCCCTA AAAAGACCAA CATTCAAGCA AATTGTTCAG CTAATTGAGA AGCAGATTTC 8281 AGAGACCACC AATCATGTGA GTATACCCTG CCCAGCCATA GAATCCCCCT TCTCCCAGTT 8341 CCAGGTGTGT CCTCCTCCTC AGGCTTTCAG GGTGAGGACT AACCTCCCAA CCCCTTCTCT 8401 CCTAATCTTA GGTTGCAAAT TGGGCTTCAC GTAGGGGAAG TAAAGCAATG GAAACTAGTT 8461 CTTTTAAGAG TTCCATCAGT TAGTTGTGAT CTTGACACTG TAAGTATGCC TTTTGTTGCT 8521 ATGTTCGTTG TAGGGACTGC TGTATTCACT ATGGGCTTGT TTTCTCCACA TTTACTCCAA 8581 CTTAGCAAAC TGCAGCCCCA ACCGACACAA GCCCGTGGTA GACCATTCTG TGCGGATCAA 8641 TTCTGTCGGC AGCACCGCTT CCTCCTCCCA GCCTCTGCTT GTGCACGACG ATGTCTGAGC 8701 ACAATCAGTG TTTGGGTCAC CCCTCCAGGA ATCATCTCTT CTTTTGGCTT CCATGATGGT 8761 TATTTTCTTT TCTTTCAACT TGCATCCAAC TCCAGGATAG TGGGCACCCC ACTGCAATCC 8821 TGTCTTTCTG AGCACACTTT AGTGGCCGAT GATTTTTGTC ATCAGCCACC ATCCTATTGC 8881 AAAGCTTCCA ACTGTATATA TTCCCAATAG CAACGTAGCT TCTACCATCA ACAGAAAACA 8941 TTCTGATTTG GAAAAAGAGA GGCAGGTATG GACTGGGGGC CAGAGTCCTT TCCAAGGCTT 9001 CTCCAATTCT GCCCAAAAAT ATGGTTGATA GTTTACCTGA ATAAATGGTA GTAATCACAG 9061 TTGGCCTTCA GAACCATCCA TAGTAGTATG ATGATACAAG ATTAGAAGCT GAAAACCTAA 9121 GTCCTTTATG TGGAAAACAG AACATCATTA GAACAAAGGA CAGAGTATGA ACACCTGGGC 9181 TTAAGAAATC TAGTATTTCA TGCTGGGAAT CAGACATAGG CCATGAAAAA AATGATCCCC 9241 AAGTCTGAAC AAAAGATCCT CTTCTGTCGA CCACTGCATG AGCTTTTATA CTACCGACCT 9301 GGTPTTTAAA TAGACTTTGC TATTAGAGCA TTGAATTGGA GAGAAGGCCT CCCTAGCCAG 9361 CACTTGTATA TACGCATGTA TAAATTGTCC GTGTTCATAC ATTTGAGGGG AAAACACCAT 9421 AAGGTTTCGT TTCTGTATAC AACCCTGGCA TTATGTCCAC TGTGTATAGA AGTAGATTAA 9481 GAGCCATATA AGTTTGAAGG AAACACTTAA TACCATTTTT TAAGGAAACA ATATAACCAC 9541 AAAGCACAGT TTGAACAAAA TCTCCTCTTT TAGCTGATGA ACTTATTCTG TAGATTCTCT 9601 GGAACAAGCC TATCAGCTTC AGAATGGCAT TGTACTCAAT GGATTTGATG CTGTTTGACA 9661 AAGTTACTGA TTCACTGCAT GGCTCCCACA GGAGTGGGAA AACACTGCCA TCTTAGTTTG 9721 GATTCTTATG TAGCAGGAAA TAAAGTATAG GTTTAGCCTC CTTCGCAGGC ATGTCCTGGA 9781 CACCGGGCCA CTATCTATAT ATGTGTATGT ACGTTTGTAT GTGTGTAGAC AAATATTTGG 9841 AGGGGTATTT TTGCCCTGAG TCCAAGAGGG TCCTTTAGTA CCTGAAAAGT AACTTGGCTT 9901 TCATTATTAG TACTGCTCTT GTTTCTTTTC ACATAGCTGT CTAGAGTAGC TTACCAGAAG 9961 CTTCCATAGT GGTGCAGAGG AAGTGGAAGG CATCAGTCCC TATGTATTTG CAGTTCACCT 10021 GCACTTAAGG CACTCTGTTA TTTAGACTCA TCTTACTGTA CCTGTTCCTT AGACCTTCCA 10081 TAATGCTACT GTCTCACTGA AACATTTAAA TTTTACCCTT TAGACTGTAG CCTGGATATT 10141 ATTCTTGTAG TTTACCTCTT TAAAAACAAA ACAAAACAAA ACAAAAAACT CCCCTTCCTC 10201 ACTGCCCAAT ATAAAAGGCA AATGTGTACA TGGCAGAGTT TGTGTGTTGT CTTGAAAGAT 10261 TCAGGTATGT TGCCTTTATG GTTTCCCCCT TCTACATTTC TTAGACTACA TTTAGAGAAC 10321 TGTGGCCGTT ATCTGGAAGT AACCATTTGC ACTGGAGTTC TATGCTCTCG CACCTTTCCA 10381 AAGTTAACAG ATTTTGGGGT TGTGTTGTCA CCCAAGAGAT TGTTGTTTGC CATACTTTGT 10441 CTGAAAAATT CCTTTGTGTT TCTATTGACT TCAATGATAG TAAGAAAAGT GGTTGTTAGT 10501 TATAGATGTC TAGGTACTTC AGGGGCACTT CATTGAGAGT TTTGTCTTGC CATACTTTGT 10561 CTGAAAAATT CCTTTGTGTT TCTATTGACT TCAATGATAG TAAGAAAAGT GGTTGTTAGT 10621 TATAGATGTC TAGGTACTTC AGGGGCACTT CATTGAGAGT TTTGTCTTGG ATATTCTTGA 10681 AAGTTTATAT TTTTATAATT TTTTCTTACA TCAGATGTTT CTTTGCAGTG GCTTAATGTT 10741 TGAAATTATT TTGTGGCTTT TTTTGTAAAT ATTGAAATGT AGCAATAATC TCTTTTGAAT 10801 ATTCCCAAGC CCATGAGTCC TTGAAAATAT TTTTTATATA TACAGTAACT TTATGTGTAA 10861 ATACATAAGC GGCGTAAGTT TAAAGGATGT TGGTGTTCCA CGTGTTTTAT TCCTGTATGT 10921 TGTCCAATTG TTGACAGTTC TGAAGAATTC TAATAAAATG TACATATATA AATCAA GENBANK ID: M32110 VERSION M32110.1 GI:189421 RATPPSPISACHSTMGRKLDPTKEKRGPGRKARKQKGAETELVR FLPAVSDENSKRLSSRARKRAAKRRLGSVEAPKTNKSPEAKPSPGKLPKGISAGAVQT AGKKGPQSLFNAPRGKKRPAPGSDEEEEEEDSEEDGNVNHGDLWGSEDDADTVDDYGA DSNSEDEEEGEALLPIEPAARKQKAREAAAGIQWSEEETEDEBEEKEVTPESGPPKVE EADGGLQINVDEEPFVLPPAGEMEQDAQAPDLQRVHKRIQDIVGILRDPGAQREEGRS RSEYLNRLKKQLAIYYSYGDFLLGKLMQLFPLSELVEFLBANEVPRPVTLRTNTLKTR RRDLAQALINRGVNLDPLGKBSKTGLVVYDSSVPTGATPEYLAGHYMLQGASSMLPVM ALAPQEHERILDMCCAFGGKTSYMAQLMKNTGVILANDANAERLKSVVGNLHRLGVTN TIISHYDGRQFPKVVGGFDRVLLDAPCSGTGVISKDPAVKTNKDEKDILRCAHLQKEL LLSAIDSVNATSKTGGYLVYCTCSITVEENEWVVDYALKKRNVRLVPTGLDFGQEGFT RFRERRFHPSLRSTRRFYPHTHNMQGFFIAKFKKFSNSIPQSQTGNSETATPTNVDLP QVIPKSENSSQPAKKAKGAGKTKQQLQKQQHPKKASFQKLNGISKGAQSELSTVPSVT KTQASSSFQDSSQPAGKAEGIREPKVTGKLKQRSPKLQSSKKVAFLRQNAPPKGTDTQ TPAVLSPSKTQATLKPKDHHQPLGRAKCVEKQQFAEQPFEKAAFQKQNDTPKGLSLPL CLPSVPAAPHQQRGRNLSPGATASCCYLRWLKTRRVAHCHCHQVGTLASVRMPSLLCI PMKFNTHFKTSGH GenHank ID: J04111 VERSION J04111.1 GI:186624 MTAKMETTFYDDALNASFLPSESGPYGYSNPKTLKQSNTLNLAD PVGSLKPHLRAKNSDLLTSPDVGLLKLASPELERLIIQSSNGHITTTPTPTQFLCPKN VTDEQEGFAEGFVRALAELHSGNTLPSVTSAAQPVNGAGMVAPAVASVAGGSGSGGFS ASLHSEPPVYANLSNFNFGALSSGGGAPSYGAAGLAFPAQPQQQQQPPHHLPQQNPVQ HPRLQALKEEPQTVPEMPGETPPLSPIDMESQERIKAERKRNRNRIAASKCRKRKLER IARLEEKVKTLKAQNSELASTANNLREQVAQLKQKVMNHVNSGCQLMLTQQLQTF GENBANK ID: X59932 VERSION X59932.1 GI:30255 MSAIQAAWPSGTECIAKYNFHGTAEQDLPFCKGDVLTIVAVTKD PNWYKAKNKVGREGIIPANYVQKREGVKAGTKLSLMPWFHGKITREQAERLLYPPETG LFLVRESTNYFGDYTLCVSCDGKVEHYRIMYHASKLSIDEEVYFENLMQLVEHYTSDA DGLCTRLIKPKVMEGTVAAQDEFYRSGWALNMKELKLLQTIGKGEFGDVMLGDYRGNK VAVKCIKNDATAQAFLAEASVMTQLRHSNLVQLLGVIVEEKGGLYIVTEYMAKGSLVD YLRSRGRSVLGGDCLLKFSLDVCEAMEYLEGNNFVHRDLAARNVLVSEDNVAKVSDFG LTKEASSTQDTGKLPVKWTAPEALREKKFSTKSDVWSFGILLWEIYSFGRVPYPRIPL KDVVPRVEKGYKMDAPDGCPPAVYEVNKNCWHLDAANRPSFLQLREQLEHIKTHELHL GENBANK ID: L29220 VERSION L29220.1 GI:632969 MHHCIRYRSPEPDPYLSYRWKRRRSYSREHEGRLRYPSRREPPP RRSRSRSHDRLFYQRRYRERRDSDTYRCEERSPSFGEDYYGPSRSRHRRRSRERGPYR TRKHAHECHKRRTRSCSSASSMRLWGTWVKAFLARWWSAWTMPEGSLRLP GENBANK ID: M91815.1 VERSION M91815.1 GI:180169 HOMO SAPIENS FETAL CDNA TO MRNA. 1 CAGCTGACCC TGCTGGATCA CCTCGCCTTC AAGAAGATTC CTTATGAGGA GTTCTTCGGA 61 CAAGGATGGA TGAAACTGGA AAAGAATGAA AGGACCCCTT ATATCATGAA AACCACTAAG 121 CACTTCAATG ACATCAGTAA CTTGATTGCT TCAGAAATCA TCCGCAATGA GGACATCAAC 181 GCCAGGGTGA GCGCCATCGG GAAGTGGGTG GCCGTAGCTG ACATATGCCG CTGCCTCCAC 241 AACTACAATG CCGTACTGGA GATCACCTGC TCCATGAACC GCAGTGCAAT CTTCCGGCTC 301 AAAAAGACGT GGCTCAAAGT CTCTAAGCAG ACTAAAGCTT TGATTGATAA GCTCCAAAAG 361 CTTGTGTCAT CAGAGGGCAG ATTTAAGAAT CTCAGAGAAG CTCTGAAAAA TTGTGACCCA 421 CCCTGTGTCC CTTACCTGGG GATGTACCTC ACCGACCTGG CCTTCATCGA GGAGGGGACG 481 CCCAATTACA CGGAAGACGG CCTGGTCAAC TTCTCCAAGA TGAGGATGAT ATCCCATATT 541 ATGCCAGAGA TTCGCCAGTT TCAACAAACT GCCTACAAAA TAGAGCACCA AGCAAAGGTA 601 ACGCAATATT TACTGGACCA ATCTTTTGTA ATGGATGAAG AAAGCCTCTA CGAGTCTTCT 661 CTCCGAATAG AACCAAAACT CCCCACCTGA AGCTGTGCCC AGACCCAGAC CAGCTGCTCC 721 CGGGGACATG TGCTAGAIGA TACTGTACAT ATTCGTTTGG TTTCACTGGA TTTTCTTCTT 781 CAGTATGTGC TTCTCCAAGA AATACAAATC GTCCTTGTTC TTAGATTCCT GTAG GENBANK ID: M26708 VERSION M26708.1 GI:190695 MSDAAVDTSSEITTKDLKEKKEVVEEAENGRDAFANGNANEENG EQEADNEVDEEEEEGGEEEEEEEEGDGEEEDGDEDEEAESATGKRAAEDDEDDDVDTK KQKTDEDD GENBANK ID: M81757 VERSION M81757.1 GI:337732 MPGVTVKDVNQQEFVRALAAFLEKSGKLKVPEWVDTVKLAIHKE LAPYDENWFYTRAASTARHLYLRGGAGVGSNTKIYGGRQRNGVMPSHFSRGSRSVARR VLQALEGLKMVEKDQDGGRKLTPQGQRDLDRIAGQVAAANEKH GENBANK ID: V00568 DEFINITION HUMAN MRNA ENCODING THE C-NYC ONCOGENE. VERSION V00568.1 GI:34815 MPLNV FTNRNYDLDYDSVQPYFYCDEEENFYQQQQQSELQPPA PSEDIWKKFELLPTPPLSFSRRSGLCSPSYVAVTPFSLRGDNDGGGGSFSTADQLEMV TELLGGDMVNQSFICDPDDETFIKNIIIQDCNWSGFSAAAKLVSEKLASYQAARKDSG SPNPARGHSVCSTSSLYLQDLSAAASECIDPSVVFPYPLNDSSSPRSCASQDSSAFSP SSDSLLSSTESSPQGSPEPLVLHEETPPTTSSDSEEEQEDEEEIDVVSVEKRQAPGKR SESGSPSAGGHSEPPHSPLVLKRCHVSTHQHNYAAPPSTRKDYPAAKRVKLDSVRVLR QISNNRKCTSPRSSDTEENVKRRTHNVLERQRRNELKRSFFALRDQIPELENNEIAPK VVILKKATAYILSVQAEEQKLISEEDLLRKRREQLKHNLEQLRNSCA GENBANK ID: L29219.1 VERSION L29219.1 GI:632963 MRHSKRTYCPDWDDKDWDYGKWRSSSSHERRERENSSAQENKRC KYNHSKMCDSHYLESRSINEEDYHSRRYIDEYRNDYTQGCEPGHRQRDHESRYQNHSS KSSGRSGRSSYKSKHRIHHSTSHRRSHGKSHRRKRTRSVEDDEEGHLICQSGDVLSAR YEIVDTLGEGAFGKVVECIDHKAGGREVAVKIVKNVDRYCEAARSEIQVLEHLNTTDP NSTFRCVQMLEWFEHHGHICIVFELLGLSTYDFIKENGFLPFRLDHIRKMAYQICKSV NFLHSNKLTHTDLKPENILFVQSDYTEAYNPKIKRDERTLINPDIKVVDFGSATYDDE HHSTLVSTRHYRAPEVILALGWSQPCDVWSIGCILIEYYIGFTVFPTHDSKEHLAMME RILGPLPKHMIQKTRKRKYFHHDRLDWDEHSSAGRYVSRACKPLKEFMLSQDVEHERL FDLIQKMLEYDPAKRITLREALKHPFFDLLKKSI GENBANK ID: U49399.1 VERSION U49399.1 GI:1418220 MLLEEVRAGDRLSGAAARGDVQEVRRLLHRELVHPDALNRFGKT ALQVMMFGSTAIALELLKQGASPNVQDTSGTSPVHDAARTGFLDTLKVLVEHGADVNV PDGTGALPIHLAVQEGHTAVVSFLAAESDLHRRDARGLTPLELALQRGAQDLVDILQG HMVAPL GENBANK ID: XM_039993.2 VERSION XM_039993.2 GI:16188964 MVSYWDTGVLLCALLSCLLLTGSSS0SKLKDPELSLKGTQHIMQ AGQTLHLQCRGEAAHKWSLPEMVSKESERLSITKSACGRNGKQFCSTLTLNTAQANHT GFYSCKYLAVPTSKKKETESAIYIFISDTGRPFVEMYSEIPEIIHMTEGRELVIPCRV TSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVN0HLYKT NYLTHRQTNTIIDVQISTPRPVKLLRGHTLVLNCTATTPLNTRVQMTNSYPDEKNKRA SVRRRIDQSNSHANIFYSVLTIDKMQNKDKGLYTCRVRSGPSFKSVNTSVHIYDKAFI TVKHRKQQVLETVAGKRSYRLSMKVKAFPSPEVVWLKDGLPATEKSARYLTRGYSLII KDVTEEDAGNYTILLSIKQSNVFKNLTATLIVNVKPQIYEKAVSSFPDPALYPLGSRQ ILTCTAYGIPQPTIKNFNHPCNHNHSEARCDFCSNNEESFILDADSNMGNRIESITQR MAIIEGKNKMASTLVVADSRISGIYICIASNKVQTVGRNISFYITDVPNGFHVNLEKN PTEGEDLKLSCTVNKFLYRDVTWILLRTVNNRTMHYSISKQKMAITKEHSITLNLTIM NVSLQDSGTYACRARNVYTGEEILQKKEITIRDQEAPYLLRNLSDHTVAIESSTTLDC HANGVPEPQITWFKNNHKIQQEPGIILGPGSSTLFIERVTEEDEGVYHCKATNQKGSV ESSAYLTVQGTSDKSNLELITLTCTCVAATLFWLLTLFIRKDAKRSSSEIKTDYLSII MDPDEVPLDEQCERLPYDASKWEFARERLKLGKSLGRGAFGKVVQASAFGIKKSPTCR TVAVKMLKEGATASEYKALMTELKILTHIGHHLNVVNLLGACTKQGGPLMVIVEYCKY GNLSNYLKSKRDLFFLNKDAALHMEFKKEKNEPGLEQGKKPRLDSVTSSESFASSGFQ EDKSLSDVEEEEDSD0FYKEPITMEDLISYSFQVARQNEFLSSRKCIHRDLAARNILL SENNVVKICDFGLARDIYKNPDYVRKGDTRLPLKWMAPESIFDKIYSTKSDVWSYGVL LWEIFSLGGSFYPGVQNDEDFCSRLREGNRMRAPEYSTFEIYQIMLDCWHRDPKERPR FAELVEKLGDLLQANVQQDGKDYIPINAILTGNSGFTYSTPAFSEDFFKESISAPKFN SGSSDDVRYVNAFKFMSLERIKTFEELLPNATSMFDDYQGDSSTLLASPMLKRFTWTD SKPKASLKIDLRVTSKSKESGLSDVSRPSFCHSSCGHVSEGKRRFTYDHAELERKIAC CSPPPDYNSVVLYSTPPI GENBANK ID: U61262.1 VERSION U61262.1 GI:1621606 CDS 137..4522 /CODON_START=1 1 GGGCCGGGCC GGGCTGGGCT GGAGCAGCGG CGCCCGGGAG CCGAGCTTGC AGCGAGGGAC 61 CGGCTGAGGC GCGCGGGAGG GAAGGAGGCA ACGGCTCCGC GGCGCTGTCG CGCTGCCGCT 121 CACTCTCGGG GAAGAGATGG CGGCGGAGCG GGGAGCCCGG CGACTCCTCA GCACCCCCTC 181 CTTCTGGCTC TACTGCCTGC TGCTGCTCGG GCGCCGGGCG CCGGGCGCCG CGGCGGCCAG 241 GAGCGGCTCC GCGCCGCAGT CCCCAGGAGC CAGCATTCGA ACGTTCACTC CATTTTATTT 301 TCTGGTGGAG CCGGTGGATA CACTCTCAGT TAGAGGCTCT TGTGTTATAT TAAACTGTTC 361 AGCATATTCT GAGCCTTCTC CAAAAATTGA ATGGAAAAAA GATGGAACTT TTTTAAACTT 421 AGTATCAGAT GATCGACGCC AGCTTCTCCC GGATGGATCT TTATTTATCA GCAATGTGGT 481 GCATTCCAAA CACAATAAAC CTGATGAAGG TTATTATCAG TGTGTGGCCA CTGTTGAGAG 541 TCTTGGAACT ATTATCAGTA GAACAGCGAA CCTCATAGTA GCAGGTCTTC CAAGATTTAC 601 CAGCCAACCA GAACCTTCCT CAGTTTATGC TGGGAACGGA GCAATTCTGA ATTGTGAAGT 661 TAATGCAGAT TTGGTCCCAT TTGTGAGGTG GGAACAGAAC AGACAACCCC TTCTTCTGGA 721 TGATAGAGTT ATCAAACTTC CAAGTGGAAT GCTGGTTATC AGCAATGCAA CTGAAGGAGA 781 TGGCGGGCTT TATCGCTGCG TAGTGGAAAG TGGTGGGCCA CCAAAGTATA GTCATGAAGT 841 TGAATTGAAG GTTCTTCCAG ATCCTGAGGT GATATGAGAC TTGGTATTTT TGAAACAGCC 901 TTCTCCCTTA GTCAGAGTCA TTGGTCACGA TGTAGTGTTG CCATGTGTTG CTTCAGGACT 961 TCCTACTCCA ACCATTAAAT GGATGAAAAA TGAGGAGGCA CTTGACACAC AAAGCTCTGA 1021 AAGATTGGTA TTGCTGGCAG GTGGTAGCCT GGAGATCAGT GATGTTACTG AGGATGATGC 1081 TGGGACTTAT TTTTGTATAG CTGATAATGG AAATGAGACA ATTGAAGCTC AAGCAGAGCT 1141 TACAGTGCAA GCTCAACCTG AATTCCTGAA GCAGCCTACT AATATATATG CTCACGAATC 1201 TATGGATATT GTATTTGAAT GTGAAGTGAC TGGAAAACCA ACTCCAACTG TGAAGTGGGT 1261 CAAAAATGGG GATATGGTTA TCCCAAGTGA TTATTTTAAG ATTGTAAAGG AACATAATCT 1321 TCAAGTTTTG GGTCTGGTGA AATCAGATGA AGGGTTCTAT CAGTGCATTG CTGAAAATGA 1381 TGTTGGAAAT GCACAAGCTG GAGCCCAACT GATAATCCTT GAACATGCAC CAGCCACAAC 1441 GGGACCACTG CCTTCAGCTC CTCGGGATGT CGTGGCCTCC CTGGTCTCTA CCCGCTTCAT 1501 CAAATTGACG TGGCGGACAC CTGCATCAGA TCCTCACGGA GACAACCTTA CCTACTCTGT 1561 GTTCTACACC AAGGAAGGGA TTGCTAGGGA ACGTGTTGAG AATACCAGTC ACCCAGGAGA 1621 GATGCAAGTA ACCATTCAAA ACCTAATGCC AGCGACCGTG TACATCTTTA GAGTTATGGC 1681 TCAAAATAAG CATGGCTCAG GAGAGAGTTC AGCTCCACTG CGAGTAGAAA CACAACCTGA 1741 GGTTCAGCTC CCTGGCCCAG CACCTAACCT TCGTGCATAT GCAGCTTCGC CTACCTCCAT 1801 CACTGTTACG TGGGAAACAC CAGTGTCTGG CAATGGGGAA ATTCAGAATT ATAAGTTGTA 1861 CTACATGGAA AAGGGGACTG ATAAAGAACA GGATGTTGAT GTTTCAAGTC ACTCTTACAC 1921 CATTAATGGG TTGAAAAAAT ATACAGAGTA TAGTTTCCGA GTGGTGGCCT ACAATAAACA 1981 TGGTCCTGGA GTTTCCACAC CAGATGTTGC TGTTCGAACA TTGTCAGATG TTCCCAGTGC 2041 TGCTCCTCAG AATCTGTCCT TGGAAGTGAG AAATTCAAAG AGTATTATGA TTCACTGGCA 2101 GCCACCTGCT CCAGCCACAC AAAATGGGCA GATTACTGGC TACAAGATTC GCTACCGAAA 2161 GGCCTCCCGA AAGAGTGATG TCACTGAGAC CTTGGTAAGC GGGACACAGC TGTCTCAGCT 2221 GATTGAAGGT CTTGATCGGG GGACTGAGTA TAATTTCCGA GTGGCTGCTC TAACAATCAA 2281 TGGTACAGGC CCGGCAACTG ACTGGCTGTC TGCTGAAACT TTTGAAAGTG ACCTAGATGA 2341 AACTCGTGTT CCTGAAGTGC CTAGCTCTCT TCACGTACGC CCGCTCGTTA CTAGCATCGT 2401 AGTGAGCTGG ACTCCTCCAG AGAATCAGAA CATTGTGGTC AGAGGTTACG CCATTGGTTA 2461 TGGCATTGGC AGCCCTCATG CCCAGACCAT CAAAGTGGAC TATAAACAGC GGTATTACAC 2521 CATTGAAAAT CTGGATCCCA GCTCTCACTA TGTGATTACC CTGAAAGCAT TTAATAACGT 2581 GGGTGAAGGC ATCCCCCTGT ATGAGAGTGC TGTGACCAGG CCTCACACAG ACACTTCTGA 2641 AGTTGATTTA TTTGTTATTA ATGCTCCATA CACTCCAGTG CCAGATCCCA CTCCCATGAT 2701 GCCACCACTG GGAGTTCAGG CTTCCATTCT GAGTCATGAC ACCATCAGGA TTACGTGGGC 2761 AGACAACTCG CTGCCCAAGC ACCAGAAGAT TACAGACTCC CGATACTACA CCGTCCGATG 2821 GAAAACCAAC ATCCCAGCAA ACACCAAGTA CAAGAATGCA AATGCAACCA CTTTGAGTTA 2881 TTTGGTGACT GGTTTAAAGC CGAATACACT CTATGAATTC TCTGTGATGG TGACCAAAGG 2941 TCGAAGATCA AGTACATGGA GTATGACAGC CCATGGGACC ACCTTTGAAT TAGTTCCGAC 3001 TTCTCCACCC AAGGATGTGA CTGTTGTGAG TAAAGAGGGG AAACCTAAGA CCATAATTGT 3061 GAATTGGCAG CCTCCCTCTG AAGCCAATGG CAAAATTACA GGTTACATCA TATATTACAG 3121 TACAGATGTG AATGCAGAGA TACATGACTG GGTTATTGAG CCTGTTGTGG GAAACAGACT 3181 GACTGACCAG ATACAAGAGT TAACTCTTGA CACACCATAC TACTTCAAAA TCCAGGCACG 3241 GAACTCAAAG GGCATGGGAC CCATGTCTGA AGCTGTCCAA TTCAGAACAC CTAAAGCGGA 3301 CTCCTCTGAT AAAATGCCTA ATGATCAAGC CTCAGGGTCT GGAGGGAAAG GAAGCCGGCT 3361 GCCAGACCTA GGATCCGACT ACAAACCTCC AATGAGCGGC AGTAACAGCC CTCATGGGAG 3421 CCCCACCTCT CCTCTGGACA GTAATATGCT GCTGGTCATA ATTGTTTCTG TTGGCGTCAT 3481 CACCATCGTG GTGGTTGTGA TTATCGCTGT CTTTTGTACC CGTCGTACCA CCTCTCACCA 3541 GAAAAAGAAA CGAGCTGCCT GCAAATCAGT GAATGGCTCT CATAAGTACA AAGGGAATTC 3601 CAAAGATGTG AAACCTCCAG ATCTCTGGAT CCATCATGAG AGACTGGAGC TGAAACCCAT 3661 TGATAAGTCT CCAGACCCAA ACCCCATCAT GACTGATACT CCAATTCCTC GCAACTCTCA 3721 ACATATCACA CCAGTTGACA ACTCCATCCA CAGCAATATC CATCAAAGGC GAAATTCATA 3781 CAGAGGGCAT GAGTCAGAGG ACAGCATGTC TACACTGGCT GGAAGGCGAG GAATGAGACC 3841 AAAAATGATG ATGCCCTTTG ACTCCCAGCC ACCCCAGCCT GTGATTAGTG CCCATCCCAT 3901 CCATTCCCTC GATAACCCTC ACCATCATTT CCACTCCAGC AGCCTCGCTT CTCCAGCTCG 3961 CAGTCATCTC TACCACCCGG GCAGCCCATG GCCCATTGGC ACATCCATGT CCCTTTCAGA 4021 CAGGGCCAAT TCCACAGAAT CCGTTCGAAA TACCCCCAGC ACTGACACCA TGCCAGCCTC 4081 TTCCTCTCAA ACATGCTGCA CTGATCACCA GGACCCTGAA GGTGCTACCA GCTCCTCTTA 4141 CTTGGCCAGC TCCCAAGAGG AAGATTCAGG CCAGACTCTT CCCACTGCCC ATGTTCGCCC 4201 TTCCCACCCA TTGAAGAGCT TCGCCGTGCC AGCAATCCCG CCTCCAGGAC CTCCCACCTA 4261 TGATCCTGCA TTGCCAAGCA CACCATTACT GTCCCAGCAA GCTCTGAACC ATCACATTCA 4321 CTCAGTGAAG ACAGCCTCCA TCGGGACTCT AGGAAGCAGC CCCCCTCCTA TGCCAGTGGT 4381 TGTTCCCAGT GCCCCTGAAC TGCAGGAGAC CACAAGGATG TTGGAAGACT CCGAGAGTAG 4441 CTATGAACCA GATGAGCTGA CCAAAGAGAT GGCCCACCTG GAAGGACTAA TGAAGGACCT 4501 AAACGCTATC ACAACAGCAT GACGACCTTC ACCAGGACCT GACTTCAAAC CTGAGTCTGG 4561 AAGTCTTGGA ACTTAACCCT TGAAAACAAG GAATTGTACA GAGTACGAGA GGACAGCACT 4621 TGAGAACACA GAATGAGCCA GCAGACTGGC CAGCGCCTCT GTGTAGGGCT GGCTCCAGGC 4681 ATGGCCACCT GCCTTCCCCT GGTCAGCCTG GAAGAAGCCT GTGTCGAGGC AGCTTCCCTT 4741 TGCCTGCTGA TATTCTGCAG GACTGGGCAC CATGGGCCAA AATTTTGTGT CCAGGGAAGA 4801 GGCCAGAAGT GCAACCTGCA TTTCACTTTG TGGTCAGGCC GTGTCTTTGT GCTGTGACTG 4861 CATCACCTTT ATGGAGTGTA GACATTGGCA TTTATGTACA ATTTTATTTG TGTCTTATTT 4921 TATTTTACCT TCAAAAACAA AAACGCCATC CAAAACCAAG GAAGTCCTTG GTGTTCTCCA 4981 CAAGTGGTTG ACATTTGACT GCTTGTTCCA ATTATGTATG GAAAGTCTTT GACACTGTGG 5041 GTCGTTCCTG GGGTTGGCTT GTTTTTTGGT TTCATTTTTA TTTTTTAATT CTGAGTCATT 5101 GCATCCTCTA CCAGCTGTTA ATCCATCACT CTGAGGGGGA GGAAATGTTG CATTGCTGTT 5161 TGTAAGCTTT TTTTATTATT TTTTTATTAT AATTATTAAA GGCCTGACTC TTTCCTCTCA 5221 TCACTGTGAG ATTACAGATC TATTTGAATT GAATGAAATG TAACATTGAA AAAAAAAAAA 5281 AAAAAAAAAA AAAAAAA GENBANK ID: M11730.1 VERSION M11730.1 GI:183986 PRODUCT=“HER2 MRNA” CDS 151..3918 /CODON_START=1 1 AATTCTCGAG CTCGTCGACC GGTCGACGAG CTCGAGGGTC GACGAGCTCG AGGGCGCGCG 61 CCCGGCCCCC ACCCCTCGCA GCACCCCGCG CCCCGCGCCC TCCCAGCCGG GTCCAGCCGG 121 AGCCATGGGG CCGGAGCCGC AGTGAGCACC ATGGAGCTGG CGGCCTTGTG CCGCTGGGGG 181 CTCCTCCTCG CCCTCTTGCC CCCCGGAGCC GCGAGCACCC AAGTGTGCAC CGGCACAGAC 241 ATGAAGCTGC GGCTCCCTGC CAGTCCCGAG ACCCACCTGG ACATGCTCCG CCACCTCTAC 301 CAGGGCTGCC AGGTGGTGCA GGGAAACCTG GAACTCACCT ACCTGCCCAC CAATGCCAGC 361 CTGTCCTTCC TGCAGGATAT CCAGGAGGTG CAGGGCTACG TGCTCATCGC TCACAACCAA 421 GTGAGGCAGG TCCCACTGCA GAGGCTGCGG ATTGTGCGAG GCACCCAGCT CTTTGAGGAC 481 AACTATGCCC TGGCCGTGCT AGACAATGGA GACCCGCTGA ACAATACCAC CCCTGTCACA 541 GGGGCCTCCC CAGGAGGCCT GCGGGAGCTG CAGCTTCGAA GCCTCACAGA GATCTTGAAA 601 GGAGGGGTCT TGATCCAGCG GAACCCCCAG CTCTGCTACC AGGACACCAT TTTGTGGAAG 661 GACATCTTCC ACAAGAACAA CCAGCTGGCT CTCACACTGA TAGACACCAA CCGCTCTCGG 721 GCCTGCCACC CCTGTTCTCC GATGTGTAAG GGCTCCCGCT GCTGGGGAGA GAGTTCTGAG 781 GATTGTCAGA GCCTGACGCG CACTGTCTGT GCCGGTGGCT GTGCCCGCTG CAAGGGGCCA 841 CTGCCCACTG ACTGCTGCCA TGAGCAGTGT GCTGCCGGCT GCACGGGCCC CAAGCACTCT 901 GACTGCCTGG CCTGCCTCCA CTTCAACCAC AGTGGCATCT GTGAGCTGCA CTGCCCAGCC 961 CTGGTCACCT ACAACACAGA CACGTTTGAG TCCATGCCCA ATCCCGAGGG CCGGTATACA 1021 TTCGGCGCCA GCTGTGTGAC TGCCTGTCCC TACAACTACC TTTCTACGGA CGTGGGATCC 1081 TGCACCCTCG TCTGCCCCCT GCACAACCAA GAGGTGACAG CAGAGGATGG AACACAGCGG 1141 TGTGAGAAGT GCAGCAAGCC CTGTGCCCGA GTGTGCTATG GTCTGGGCAT GGAGCACTTG 1201 CGAGAGGTGA GGGCAGTTAC CAGTGCCAAT ATCCAGGAGT TTGCTGGCTG CAAGAAGATC 1281 TTTGGGAGCC TGGCATTTCT GCCGGAGAGC TTTGATGGGG ACCCAGCCTC CAACACTGCC 1321 CCGCTCCAGC CAGAGCAGCT CCAAGTGTTT GAGACTCTGG AAGAGATCAC AGGTTACCTA 1381 TACATCTCAG CATGGCCGGA CAGCCTGCCT GACCTCAGCG TCTTCCAGAA CCTGCAAGTA 1441 ATCCGGGGAC GAATTCTGCA CAATGGCGCC TACTCGCTGA CCCTGCAAGG GCTGGGCATC 1501 AGCTGGCTGG GGCTGCGCTC ACTGAGGGAA CTGGGCAGTG GACTGGCCCT CATCCACCAT 1561 AACACCCACC TCTGCTTCGT GCACACGGTG CCCTGGGACC AGCTCTTTCG GAACCCGCAC 1621 CAAGCTCTGC TCCACACTGC CAACCGGCCA GAGGACGAGT GTGTGGGCGA GGGCCTGGCC 1681 TGCCACCAGC TGTGCGCCCG AGGGCACTGC TGGGGTCCAG GGCCCACCCA GTGTGTCAAC 1741 TGCAGCCAGT TCCTTCGGGG CCAGGAGTGC GTGGAGGAAT GCCGACTACT GCAGGGGCTC 1801 CCCAGGGAGT ATCTGAATGC CAGGCACTGT TTGCCCTGCC ACCCTGACTG TCAGCCCCAG 1861 AATGGCTCAG TGACCTGTTT TGGACCGGAG GCTGACCAGT GTGTGGCCTC TCCCCACTAT 1921 AAGGACCCTC CCTTCTGCGT GGCCCGCTGC CCCAGCGGTG TGAAACCTGA CCTCTCCTAC 1981 ATGCCCATCT GGAAGTTTCC AGATGACGAG GGCGCATGCC AGCCTTGCCC CATCAACTGC 2041 ACGCACTCCT GTGTGGACCT GGATGACAAG GGCTGCCCCG CCGAGCAGAG AGCCAGCCCT 2101 CTGACGTCCA TCGTCTCTGC GGTGCTTGGC ATTCTGCTGG TCGTGGTCTT GGGGGTGGTC 2161 TTTGGGATCC TCATCAAGCG ACGGCAGCAG AAGATCCCCA ACTACACCAT CCGGACACTG 2221 CTGCAGCAAA CGGAGCTGGT GGAGCCCCTG ACACCTAGCG GAGCGATGCC CAACCAGGCG 2281 CAGATGCGCA TCCTGAAAGA GACGGAGCTG ACGAAGGTGA AGGTGCTTGG ATCTGGCGCT 2341 TTTGGCACAG TCTACAAGCG CATCTGGATC CCTGATCGGC ACAATGTGAA AATTCCAGTG 2401 GCCATCAAAG TGTTGAGGGA AAACACATCC CCCAAAGCCA ACAAAGAAAT CTTACACGAA 2461 GCATACGTGA TGGCTGGTGT GGGCTCCCCA TATGTCTCCC GCCTTCTGGG CATCTCCCTC 2521 ACATCCACGG TGCAGCTGGT GACACAGCTT ATGCCCTATG GCTGCCTCTT ACACCATGTC 2581 CGGGAAAACC GCGGACGCCT CGGCTCCCAG GACCTGCTGA ACTGGTGTAT GCAGATTGCC 2641 AAGGGGATGA GCTACCTGGA GGATGTGCGC CTCCTACACA CGGACTTAGC CGCTCGGAAC 2701 GTCCTGGTCA AGAGTCCCAA CCATGTCAAA ATTACAGACT TCGGGCTGGC TCGGCTGCTG 2761 GACATTGACG AGACAGAGTA CCATGCAGAT GGGGGCAAGG TGCCCATCAA GTGGATGGCG 2821 CTGGAGTCCA TTCTCCGCCG GCGGTTCACC CACCAGAGTG ATGTGTGGAG TTATGGTGTG 2881 ACTGTGTGGG AGCTGATGAC TTTTGGGGCC AAACCTTACG ATGGGATCCC AGCCCGGGAG 2941 ATCCCTGACC TGCTCGAAAA GGGGGAGCGG CTGCCCCAGC CCCCCATCTG CACCATTGAT 3001 GTCTACATGA TCATGGTCAA ATGTTGGATG ATTGACTCTG AATGTCGGCC AAGATTCCGG 3061 GAGTTGGTGT CTGAATTCTC CCGCATGGCC AGGGACCCCC AGCGCTTTGT GGTCATCCAG 3121 AATGAGGACT TGGGCCCAGC CAGTCCCTTG GACAGCACCT TCTACCGCTC ACTGCTGGAG 3181 GACGATGACA TGGGGGACCT GGTGGATGCT GAGGAGTATC TGGTACCCCA GCAGGGCTTC 3241 TTCTGTCCAG ACCCTGCCCC GCGCGCTGGG GGCATGGTCC ACCACAGGCA CCGCAGCTCA 3301 TCTACCAGGA GTGGCGGTGG GGACCTGACA CTAGGGCTGG AGCCCTCTGA AGAGGAGGCC 3361 CCCAGGTCTC CACTGGCACC CTCCGAAGGG GCTGGCTCCG ATGTATTTGA TGGTGACCTG 3421 GGAATGGGGG CAGCCAAGGG GCTGCAAAGC CTCCCCACAC ATGACGCCAG CCCTCTACAG 3481 CGGTACAGTG AGGACCCCAC AGTACCCCTG CCCTCTGAGA CTGATGGCTA CGTTGCCCCC 3541 CTGACCTGCA GCCCCCAGCC TGAATATGTG AACCAGCCAG ATGTTCGGCC CCAGCCCCCT 3601 TCGCCCCGAG AGGGCCCTCT GCCTGCTGCC CGACCTGCTG GTGCCACTCT GGAAAGGGCC 3661 AAGACTCTCT CCCCAGGGAA GAATGGGGTC GTCAAAGACG TTTTTGCCTT TGGGGGTGCC 3721 GTGGAGAACC CCGAGTACTT GACACCCCAG GGAGGAGCTG CCCCTCAGCC CCACCCTCCT 3781 CCTGCCTTCA GCCCAGCCTT CGACAACCTC TATTACTCGG ACCAGGACCC ACCAGAGCGG 3841 GGGGCTCCAC CCAGCACCTT CAAAGGGACA CCTACGGCAG AGAACCCAGA GTACCTGGGT 3901 CTGGACGTGC CAGTGTGAAC CAGAAGGCCA AGTCCGCAGA AGCCCTGATC TGTCCTCAGG 3961 GAGCAGGGAA GGCCTGACTT CTGCTGGCAT CAAGAGGTGG GAGGGCCCTC CGACCACTTC 4021 CAGGGGAACC TGCCATGCCA GGAACCTGTC CTAAGGAACC TTCCTTCCTG CTTGAGTTCC 4081 CAGATGGCTG GAAGGGGTCC AGCCTCGTTG GAAGAGGAAC AGCACTGGGG AGTCTTTGTG 4141 GATTCTGAGG CCCTGCCCAA TGAGACTCTA GGGTCCAGTG GATGCCACAG CCCAGCTTGG 4201 CCCTTTCCTT CCAGATCCTG GCTACTGAAA GCCTTAGGGA AGCTGGCCTG AGAGGGGAAG 4261 CGGCCCTAAG GGAGTGTCTA AGAACAAAAG CGACCCATTC AGAGACTGTC CCTGAAACCT 4321 AGTACTGCCC CCCATGAGGA AGGAACAGCA ATGGTGTCAG TATCCAGGCT TTGTACAGAG 4381 TGCTTTTCTG TTTAGTTTTT ACTTTTTTTG TTTTGTTTTT TTAAACACGA AATAAAGACC 4441 CAGGGGAGAA TGGGTGTTGT ATGGGGAGGC AAGTGTGGGG GGTCCTTCTC CACACCCACT 4501 TTGTCCATTT GCAAATATAT TTTGGAAAAC GENBANK ID: X14798.1 SEQUENCE 1: MKAAVDLKPTLTIIKTEKVDLELFPSPDMECADVPLLTPSSKEM MSQALKATFSGFTKEQQRLGIFKDPRQWTETHVRDWVMWAVNEFSLKGVDFQKFCMNG AALCALGKDCGLELAPDFVGDILWEHLEILQKEDVKPYQVNGVNPAYFESRYTSDYFI SYGIEHAQCVPPSEFSEPSFITESYQTLHPISSEELLSLKYENDYPSVILRDPLQTDT LQNDYFAIKQEVVTFDNNCMGRTSRGKLGGQDSFESIESYDSCDRLTQSWSSQSSFNS LQRVPSYDSFDSEDYPAALPNHKPKGTFKDYVRDRADLNKDKPVIPAAALAGYTGSGP IQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDBVARRWGKRKNKPKMNYEKLSRG LRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHANLDVKPDADE SEQUENCE 2; MKAAVDLKPTLTIIKTEKVDLELFPSPDMECADVPLLTPSSKEM MSQALKATFSGFTKEQQRLGIPKDFRQWTETHVRDWVNWAVNEFSLKGVDFQKFCMNG AALCALGKDGFLELAPDFVGDILWEHLEILQKEDVKPYQVNGVNPAYPESRYTSDYFI SYGIEHAQCVPPSEFSEPSFITESYQTLHPISSEELLSLKYENDYPSVILRDDLQTDT LQNDYFAIKQEVVTPDNMCNGRTSRGSGPIQLWQFLLELLTDKSCQSFTSWTGDGWEF KLSDPDEVARRNGKRRNKPKNNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSL LGYTPEELHAMLDVKPDADE GENBANK ID: D49547 VERSION D49547.1 GI:710654 MGKDYYQTLGLARGASDEEIKRAYRRQALRYNFDKNKEFGAEEK FKEIAEAYDVLSDPRKREIFDRYGEEGLKGSGPSGCSGGGANGTSFSYTFHGDPRAMF AEFFGGRNPFDTFFGQRNGEEGNDIDDFFSGFPMGMGGFTNVNFGRSRSAQEPARKKQ DPPVTNDLRVSLEEIYSGCTKKMKISHKRLNFDGKSIRNEDKILTIEVKKGWKEGTKI TEPKEGDQTSNNIPADIVFVLKDKPHNIFKRDGSDVIYPARISLREALCGCTVNVPTL DGRTIFVVFKDVIRPGMRRKVPGEGLPLPKTPEKRGDLIIEFEVIFPERIPQTSRTVL EQVLPI GENBANK ID: M11717 VERSION D49547.1 GI:710654 MGKDYYQTLGLARGASDEEIKRAYRRQALRYHPDKNKEPGAEEK FKEIAEAYDVLSDPRKREIFDRYGEEGLKGSGPSCGSGGGANGTSFSYTFHGDPHAMF AEFFGGRNPFDTFFGQRNGEEGNDIDDPFSGFPNGNGGFTNVNFGRSRSAQEPARKKQ DPPVTHDLRVSLEEIYSGCTKKMKISHKRLNPDGKSIRNEDKILTIEVKKGWKEGTKI TFPKEGDQTSNNIFADIVFVLKDKPHNIFKRDGSDVIYFARISLREALCGCTVNVPTL DGRTIPVVFKDVIRPGNRRKVPGEGLFLFKTFEKRGDLIIEFEVIFPERIPQTSRTVL EQVLPI GENBANK ID: X76648 VERSION X76648.1 GI:531404 MAQSFVNCKIQFGKVVVFIKPTCPYCRRAQEILSQLPIKQGLLE FVDITATNHTNEIQDYLQQLTGARTVFRVFIGKDCIGGCSDLVSLQQSGSLLTRLKQI GALQ GENBANK ID: NM_011587.1 VERSION NM_011587.1 GI:6755784 MVWWGSSLLLFTLFLASHVGASVDLTLLANLRITDPQRFFLTCV SGEAGAGRSSDPPLLLSKDDRIVRTIFPGQPLYLARNGSHQVTLRGFSKPSDLVGVFS CVGGAGARRTRVLYVHNSPGAHLFPDKVTHTVNKGDTAVLSAHVHKEKQTDVIWKNNG SYFNTLDWQEADDGRFQLQLQNVQPPSSGIYSATYLSASFLGSAFFRLIVRGCGAGRW GPGCVKDCFGCLHGGVCMDMDGSCVCPPGFTGTRQSQACRSGRFGQSCQSQCPGTAGC RGLTFCLPDPYGCSCGSGWRGSQCQSACAPDHFGADCRLQCQCQNGGTCDRFSGCVCP SGWHGVHCEKSDRIPQILSMATSVSFNIGTMPRINCAAAGNPFPVRGSMKLRKPDGTM LLSTKVIVEPDRTTASFSVFSLTLGDSGFWECRVSTSGGQDSRRFKVNVKVPPVPLTA PRLLAKQSRQLVVSPLVSFSGDGPISSVRLEYRPQDSTIAWSAIVVDPSSNVTLMNLK PKTGYNVRVQLSRPGEGGEGGWGPSALMTTDCPEPLLQFWLSSWNVEGPDRLRVSWSL PSVPLSGDGFLLRLMDGARGQSRRSNISFPQARTALLTGLTPGTHYQLDVRLYHCTLL GPASPPAMVNLPPSGPPAPRELHAQALSDSEIQLMWQHPSAPSGPISKYIVSIQVAGG SGDFQWMDVDRPESTSIIVRGLNASTRYLFRVRASVQGLGDWSNTVSSATLGNGLQSE DPVRESRAASEGLDQQLVLAVVGSVSATCLTILAALLALVCIRRSCLHRRRTFTYQSG SGEETILQFSSGTLTLTRRFKFQFSPLSYFVLEWEDITFSDLIGSGNFGQVIRAMIKK DGLKMNAAIKNLKEYASENDMRDFAGELEVLCKLGBHFNIINLLGACSNRGYLYIAIE YAPYGNLLDFLRKSRVLSTDPAFARSHGTASTLSSRQLLRFASDAANGMQYLSSKQFI HRDLAARNVLVGENLASKIADFGLSRGEEVYVKKTNGRLPVRWMAISSLNYSVYTTKS DVWSFGVLLWEIVSLGGTPYCGMTCAELYEKLPQGYRMEQPRNCDDEVYSLMRQCWRD RRYERPPFAQIALQLGRMLSARKAYVNMSLFENFTYAGIDATASSA GENBANK ID: NM_002867.1 VERSION NM_002867.1 GI:4506368 MASVTDGKMGVKDASDQNFDYMFKLLIIGNSSVGKTSFLLRYAD DTFTPAFVSTVGIDFKVKTVYRMSKRVKLQIWDTAGQSRYRTITTAYYRGANGFILMY DITNESSFNAVQDWATQIKTYSNDNAQVILVGNKCDMEEERVVPTSKGQLLASQLGFD FFEASAKENISVRQAFSRLVDAICDKMSDSLDTDPSMLGSSKNTRLSDTPPLLQQNCS C GENBANK ID: 027361 NO VERSION DATA LNENQRLAVERILSGDCRPLPYILEQPPGTQKTVTIIEAVLQVH FALPDSRILVCAPSNSAADLVCLRLHESKVLQPATMVRVGHFTHVFVDEAGQASEPEC LIPLGLMSDISGQIVLAQDPMQLGPVIKSRLAMAYGLNVSFLERLMSRPAYQRDENAF GACGANNPLLVTKLVKNYRSHEALLMLPSRLFYHRELEVCADPTVVTSLLGWEKLPKK GFPLIFHGVRQSEAREGKSPSWFNPAEAVQVLRYCCLLAHSISSQVSASDIGVITPYR KQVEKIRILLRNVDLMDIKVGSVEEFQGQEYLVIIISTVRSNEDRFEDDRYFLGFLSN SKRFNVAITRPKALLIVLGNPHVLVRDPCFGALLEYSITNGVYMGCDLPPALQSLQNC GEGVADPSYPVVPESTGPEKHQEPS GENBANK ID: NM_002752.1 VERSION NM_002752.1 GI:4506096 MSDSKCDSQFYSVQVADSTFTVLKRYQQLKPIGSGAQGIVCAAF DTVLGISVAVIKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQ DVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVK SDCTLKILDFGLARTACTNFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEL VKGCVIFQGTDHIDQMNKVIEDLGTPSAEFMKKLQPTVRNYVENRPKYPGIKFEELFP DWIFPSESERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAEAEAPP PQIYDAQLEEREHAIEEWKELIYKEVMDWEERSKNGVVKDQPSAQMQQ GENBANK ID: M22262.1 VERSION M22382.1 GI:190126 MLRLPTVFRQMRPVSRVLAPHLTRAYAKDVKFGADARALMLQGV DLLADAVAVTMGPKGRTVIIEQSWGSPKVTKDGVTVAKSIDLKDKYKNIGAKLVQDVA NNTNEEAGDGTTTATVLARSIAKEGFEKISKGANPVEIRRGVMLAVDAVIAELKKQSK PVTTPEEIAQVATISANGDKEIGNIISDAMKKVGRKGVITVKDGKTLNDELEIIEGMK FDRGYISPYFINTSKGQKCEFQDAYVLLSEKKISSIQSIVPALEIANAHRKPLVIIAE DVDGEALSTLVLNRLKVGLQVVAVKAPGF0DNRKNQLKDMAIATGGAVFGEEGLTLNL EDVQPHDLGKVGEVIVTKDDAMLLKQKGDKAQIEKRIQEIIEQLDVTTSEYEKEKLNE RLAKLSDGVAVLKVCGTSDVEVNEKKDRVTDALNATRAAVEEGIVLGGGCALLRCIPA LDSLTPANEDQKIGIEIIKRTLKIPAMTIAKNAGVEGSLIVEKIMQSSSEVGYDAMAG DFVNMVEKGIIDPTKVVRTALLDAAGVASLLTTAEVVVTEIPKEEKDPGMGAMGGMGG GMGGGMF GENBANK ID: U09564.1 DEFINITION HUMAN SERINE KINASE MRNA, COMPLETE CDS. VERSION U09564.1 GI:507212 MERKVLALQARKKRTKAKKDKAQRKSETQHRGSAPHSESDLPEQ EEEILGSDDDEQEDPNDYCKGGYHLVKIGDLFNGRYHVIRKLGWGHFSTVWLSWDIQG KKFVAMKVVKSAEHYTETALDEIRLLKSVRNSDPNDPNREMVVQLLDDFKISGVNGTH ICMVFEVLGHHLLKWIIKSNYQGLPLPCVKKIIQQVLQGLDVLHTKCRIIHTDIKPEN ILLSVNEQYIRRLAAEATENQRSGAPPPSGSAVSTAPQPKPADKMSKNKKKKLKKKQK RQAELLEKRMQEIEEMEKESGPGQKRPNKQEESESPVERPLKENPPNKMTQEKLEESS TIGQDQTLMERDTEGGAAEINCNGVIEVINYTQNSNNETLRHKEDLHNANDCDVQNLN QESSFLSLPNGDSSTSQETDSCTPITSEVSDTMVCQSSSTVGQSFSEQHISQLQESIR AEIPCEDEQEQEHNGPLDNKGKSTAGNFLVNPLEPKNAEKLKVKIADLGNACWVHKHF TEDIQTRQYRSLEVLIGSGYNTPADIWSTACMAFELATGDYLFEPNSGEEYTRDEDHI ALIIELLGKVPRKLIVAGKYSKEFFTKKGDLKNITKLKPNGLFEVLVEKYEWSQEEAA GFTDFLLPMLELIPEKRATAAECLRHPWLNS GENBANK ID: M11507.1 VERSION M11507.1 GI:239515 MMDQARSAFSNLFGGEPLSYTRFSLARQVDGDNSHVEMKLAVDE EENADNNTKANVTKPKRCSGSICYGTIAVIVFFLIGFMIGYLGYCKGVEPKTECERLA GTESPVREEPGEDFPAARRLVWDDLKRKLSEKLDSTDFTSTIKLLNENSYVPREAGSQ KDENLALYVENQFREFKLSKVWRDQHFVKIQVKDSAQNSVIIVDKNGRLVYLVENPGG YVAYSKAATVTGKLVHANFGTKKDFEDLYTPVNGSIVIVRAGKITFAEKVANAESLNA IGVLIYMDQTKFPIVNAELSFFGHAHLGTGDPYTPGFPSFNHTQFPPSRSSGLPNIFV QTISRAAAEKLFGNMEGDCPSDWKTDSTCRMVTSESKNVKLTVSNVLKEIKILNIFGV IKGFVEPDHYVVVGAQRDAWGPGAAKSGVGTALLLKLAQNFSDMVLKDGFQPSRSIIF ASWSAGDFGSVGATENLEGYLSSLHLKAFTYINLDKAVLGTSNFKVSASPLLYTLIEK TMQNVKHPVTGQFLYQDSNNASKVEKLTLDNAAFPFLAYSGIPAVSFCFCEDTDYPYL GTTMDTYKELIERIPELNKVARAAAEVAGQFVIKLTHDVELNLDYERYNSQLLSFVRD LNQYRADTKEMGLSLQWLYSARCDFFRATSRLTTDFGNAEKTDRFVMKKLNDRVMRVE YHFLSFYVSPKESPFRHVFWGSGSHTLPALLENLKLRKQNNGAFNETLFRNQLALATW TIQGAANALSGDVWDIDNEF GENBANK ID: 055017.1 VERSION 055017.1 GI:1297296 MESYHKFDQQKLQALKDTANRLRISSIQATTAAGSGHPTSCCSA AEIMAVLFFHTMRYKSQDPRNPHNDIRFVLSKGHAAPILYAVWAEAGFLEAELLNLRK ISSDLDGNPVFKQAFTDVATGSLGQGLGAACGMAYTGKYFDKASYRVYCLLGDGELSE GSVWEAMAFASIYKLDNLVAILDINRLGQSDPAPLQNQNDIYQKRCEAFGWHAIIVDG HSVEELCKAFCQAKHQFTAIIAKTFKGRGITGVEDKESWHGKPLPKNMAEQIIQEIYS QIQSKKKILATFPQEDAPSVDIANIRMPSLPSYKVGDKIATRKAYGQALAKLGHASDR IIALDGDTKNSTFSEIFKKEHPDRFIECYIAEQNNVSIAVGCATRNRTVPFCSTFAAF FTRAFDQIRMAAISESNINLCGSHCGVSIGEDGPSQMALEDLAMFRSVPTSTVFYPSD GVATEKAVELAANTKGICFIRTSRPENAIIYNNNEDFQVGQAKVVLKSKDDQVTVIGA GVTLHEALAAAELLKKEKINIRVLDPFTIKPLDRKLILDSARATKCRILTVEDHYYEG GIGEAVSSAVVGEFGITVTNLAVNRVPRSGKPAELLKMFGIDRDAIAQAVRGLITKA GENEANK ID: X14034. VERSION X14034.1 GI:35513 MSTTVNVDSLAEYEKSQIKRALELGTVNTVFSFRKSTFERRTVQ VIMETRQVAWSKTADKIEGFLDINEIKEIRPGKNSKDFEPAKAVRQKEDCCFTILYGT QFVLSTLSLAADSKEDAVNWLSGLKILHQEAMNASTPTIIESWLRKQIYSVDQTRRNS ISLRELKTILPLINFKVSSAKFLKDKFVEIGAHKDELSFEQFHLFYKKLNFEQQKSIL DEFKKDSSVFILGNTDRPDASAVYLHDFQRFLIHEQQENWAQDLNKVRERMTKFIDDT MRETAEPFLFVDEFLTYLFSRENSTWDEKYDAVDNQDMNNPLSHYWISSSNNTYLTGD QLRSESSPEAYIRCLRNGCRCIELDCWDGPDGKFVIYHGWTRTTKIKFDDVVQAIKDH AFVTSSFPVILSIEEHCSVEQQRHMAKAFKEVFGDLLLTKPTEASADQLPSPSQLREK IIIKNKKLGFPQDVDVNMEDKKDEHKQQGELYMWDSIDQKNTRHYCAIADAKLSFSDD IEQTNEEEVFQDIFFTELNFGEKWFHKKVEKRTSAEKLLQEYCNETGGKDGTFLVRES ETFPNDYTLSFWRSGRVQNCRIRSTNEGGTLKYYLTDNLRFRRNYALIQHYRETHLPC AEFELRLTDFVFNPNPHESKPWYYDSLSRGEAEDMLNRIPRDGAFLIRKRECSDSYAI TFRARGKVKHCRINRDGRHFVLGTSAYFESLVELVSYYEKHSLYRKNRLRYFVTPELL ERYNTERDINSLYDVSRNYVDPSEINPSMPQRTVKALYDYKAKRSDELSFCRGALIHN VSKEPGGNWKGDYGTRIQQYFFSNYVEDISTADFEELEKQIIEDNPLGSLCRGILDLN TYNVVKAFQGKNQKSFVFILEPKEQ0DPPVEFATDRVEELFEWFQSIREITWKIDSKE NNMKYWEKNQSIAIELSDLVVYCKFTSKTKDNLENPDFREIRSFVETKADSIIRQKPV DLLKYNQKGLTRVYFKQQRVDSSNYDPFRLNLCGSQNVALNFQTADKYNQNNRALFSL NGRTGYVLQFESNRTEKYDPNFFESQRKILMTLTVKVLGARHLPKLGRSIACPFVEVE ICGAEYGNNKFKTTVVNDNGLSPIWAPTQEKVTFEIYDFNLAFLRFVVYEEDNFSDPN FLAHATYPIKAVKSGPRSVFLKNGYSEDIELASLLVFCEMRPVLESEEELYSSCRQLR RRQEELNNQLFLYDTHQNLRNANRDALVKEFSVNENHSSCTRRNATRG GENBANK ID: M27691.1I VERSION 1627691.1 GI:181038 NTMESGAENQQSCDAAVTEAENQQNTVQAQPQIATLAQVSMPAA HATSSAPTVTLVQLPNGQTVQVHCVIQAAQPSVIQSPQVQTVQISTIAESEDSQESVD SVTDSQKRREILSRRFSYRKILNDLSSDAFGVPRIEEEKSEEETSAFAITTVTVFTPI YQTSSGQYIAITQGGAIQLANNGTDGVQGLQTLTNTNAAATQPGTTILQYAQTTDGQQ ILVPSNQVVVQAASGDVQTYQIRTAPTSTIAPGVVMASSPALPTQPAEEAARKREVRL MKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKALKDLYCHKSD GENBANK ID: 1618391 VERSION 1618391.1 GI:339716 MERRWPLGLGLVLLLCAPLPPGARAKEVTTJIVIDTSKAQGELGWLL DFPKDGWSEQQQILNGTPLYNYQDCPNQGRRDTDNWLRSNWIYRCEEASRVRVELQFT VRDCKSFPGGAGFLGCKETFNLLYNESDQDVCIQLRRPLFQKVTTVAADQSFTIRDLA SGSVKLNVERCSLGRLTRRGLYLAFHNPGACVALVSVRVFYQRCPETLNGLAQFPDTL PGPAGLVEVACTCLPHARASPRFSCAPRNHCSPDGEWLVPVGRCHCEFGYEEGGSGEA CVACPSGSYRNDMDTPHCLTCFQQSTAESEGATICTCESGHYRAFGEGPQVACTGPPS APRNLSFSASGTQLSLRWEPPADTGGRQDVRYSVRCSQCQCTAQDGGPCQPCGVGVHF SPGARALTTPAVEVNGLEFYANYTFNVEAQNGVSGLGSSGHASTSVSISMGNAESLSG LSLRLVKKEPRQLELTWAGSRPRSPGANLTYELHVLNQDEERYQNVLEFRVLLTELQP DTTYIVRVRMLTPLGPGPFSPDNEFRTSPFVSRGLTGGEIVAVIFGLLLGAALLLGIL VFRSRRAQRQRQQRHVTAPPNWIERTSCAEALCGTSRHTRTLHREPWTLPCGWSNFPS RELDFAWLNVDTVIGEGEFGEVYRGTLRLPSQDCKTVAIKTLKDTSPGCQWWNFLREA TIMGQFSNFHILHLECVVTKRKPIMIITEFNENAALDAFLREREDQLVPGQLVAMLQG IASGMNYLSNHNYVNRDLAARNILVNQNLCCKVSDFCLTRLLDDFDGTYETQGGKIPI RWTAPEAIANRIFTTASDVWSFGIVNWEVLSFGDKPYGENSNQEVNKSIEDCYRLPPP VDCPAPLYELMKNCWAYDRARRPNFQKLQAHLEQLLANPNSLRTIANFDPRVTLRLPS LSGSDGIFVRTVSEWLESIRMKRYILHFHSAGLDTMECVLELTAEDLTQNGITLPGHQ KRILCSIQGFKD GENBANK ID: X54079.1 VERSION X54079.1 GI:32477 MTERRVPFSLLRGPSWDPERDWYPHSDLFDQAFGLPRLEEWSQ WLGGSSWFGYVRPLPFAAIESPAVAAFAYSRALSRQLSSGVSEIRHTADRWRVSLDVN HFAFDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLFPGVDPTQVSSSLSFE GTLTVEAPMPKLATQSNEITTPVTFESRAQLGGPEAAKSDETAAK GENBANK ID: XM_012654.3 VERSION XM_012654.3 GI:14773503 MFGVTLWEMFSGGEEPWACVPPYLILQRLEDFARLPRPPLCSRA LYSLALDCWAPHPSDRPSFSHLEGLLQEAGPSEACCVRDVTEFGALRNETGDPITVIE GSSSFHSPDSTIWKGQNGRTFKVGSWPASAVTLADAGGLPATRPVHRGHPCFGRSTPR KHRWRQKEGKSLGCAFSTGPEEEHAPGEDERNFQESGVSSVPRSSSHRGXVQAPLKXR QARAXAPGTSRFASTPTFIL GENBANK ID: XM_054457.2 VERSION XM_054457.2 GI:18590931 MASATDSRYGQKESSDQNFDYNFKILIIGNSSVGKTSFLFRYAD DSFTPAFVSTVGIDFKVKTIYRNDKRIKLQIWDTAGQERYRTITTAYYRGANGFILMY DITNEESFNAVGDWSTQIKTYSWDNAQVLLVGNKCDMEDERVVSSERGRQLADHLGFE FFEASAKDNINVKQTFERLVDVICEKMSESLDTADPAVTGAKQGPQLSDQQVFPHQDC AC GENBANK ID: XM_038595.3 VERSION XM_038595.3 GI:18590923 MAPPSEETPLIPQRSCSLLSTEAGALEVLLPARGPGPPQRLSFS FGDHLAEDLCVQAAKASGILPVYHSLFALATEDLSCWFPPSHIFSVEDASTQVLLYRI RFYFPNWFGLEKCHRFGLRKDLASAILDLPVLEHLFADHRSDLVSGRLFVGLSLKEQG ECLSLAVLDLARMAREQAQRPGELLKTVSYKACLPPSLRDLIQGLSFVTRRRIRRTVR RALRRVAACQADRHSLMAKYIMDLERLDPAGAAETFHVGLPGALGGHDGLGLLRVAGD GGIAWTQGEQEVLQPFCDFPEIVDISIKQAPRVGPAGEHRLVTVTRTDNQILEAEFPG LPEALSFVALVDGYFRLTTDSQHFFCKEVAPPRLLEEVAEQCHGPITLDFAINKLKTG GSRPGSYVLRRSPQDFDSFLLTVCVQNPLGPDYKGCLIRRSPTGTFLLVGLSRFHSSL RELLATCWDGGLHVDGVAVTLTSCCIPRPKEKSNLIVVQRGHSPFTSSLVQPQSQYQL SQMTFHKIPADSLEWHENLGHGSFTKIYRGCRHEVVDGEARKTEVLLKVMDAKHKNCM ESFLEAASLWSQVSYRHLVLLHGVCMAGDSTWVQEFVHLGAIDMYLRKRGHLVPASWK LQVVKQLAYALNYLEDKGLFHGNVSARKVLLAREGADGSPPFIKLSDFGVSFAVLSLE MLTDRIPWVAPECLREAQTLSLEADKWGFGATVWEVFSGVTMPISALDPAKKLQFYED RQQLFAPKWTELALLIQQCMAYEFVQRPSFRAVIRDLNSLISSDYELLSDFTPGALAP RDGLWNGAQLYACQDPTIFEERHLKYISGLGKGNFGSVELCRYDPLGDNTGALVAVKQ LQHSGPDQQRDFQREIQILKALHSDFIVKYRGVSYGPGRQSLRLVMEYLPSGCLRDFL QRHRARLDASRLLLYSSQICKGMEYLGSRRCVHRDLAARNILVESEAHVKIADFGLAK LLPLDKDYYVVREPGQSPIFWYAPESLSDNIFSRGSDVWSFGVVLYELFTYCDKSCSP SAEFLRMMGCERDVPALCRLLELLEEGQRLPAPPACPAEVHELMKLCWAPSPQDRPSF SALGFQLDMLWSGSRGCETHAFTAHFEGKHHSLSFS GENBANK ID: NM_002755.2 VERSION NM_002755.2 GI:14589898 MPKKKPTPIQLNPAPDGSAVNGTSSAETNLEALQKKLEELELDE QQRKRLEAFLTQKQKVGELKDDGFEKISELGAGNGGVVFKVSHKPSGLVMARKLTHLE IKPAIRNQIIRELQVLHECNSFYIVGFYGAFYSDGEISICMEENDGGSLDQVLKKAGR IPEQILGKVSIAVIKGLTYLREKNKIMNRDVKPSNILVNSRGEIKLCDFGVSGQLIDS MANSFVGTRSYMSFERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPFDAKELELMFG CQVEGDAAETPPRFRTPGRPLSSYGMDSRPPMAIFELLDYIVNEPFPKLPSGVFSLEF QDFVNKCLIKNPAERADLKQLMVRAFIKRSDAEEVDFAGWLCSTIGLNQPSTPTHAAG V GENBANK ID: NM_001744.1 VERSION NM_001744.1 GI:4502556 MLKVTVFSCSASSCSSVTASAAPGTASLVPDYWIDGSNRDALSD FFEVESELGRGATSIVYRCKQKQTQKPYALKVLKKTVDKKIVRTEIGVLLRLSHPNII KLKEIFETFTEISLVLELVTGGELFDRIVEKGYYSERDAADAVKQILEAVAYLHENGI VHRDLKFENLLYATPAPDAPLKIADFGLSKIVEHQVLMKTVCGTPGYCAPEILRGCAY GPEVDMWSVGIITYILLCCFEPFYDERGDQFMFRRILNCEYYFISPWWDEVSLNAKDL VRKLIVLDPKKRLTTFQALQHPWVTGKAANFVHMDTAQKKLQEFNARRKLKAAVKAVV ASSRLCSASSSHGSIQESRKASRDPSPIQDGNEDMKAIPEGEKIQGDGAQAAVKGAQA ELMKVQALEKVKGADINAEEAPKMVPKAVEDGIKVADLELEECLAEEKLKTVEEAAAP REGQGSSAVGFEVPQQDVILPEY GENBANK ID: XM_053461.2 VERSION XM_053461.2 GI:13553657 MASRGATRPNGPNTGNKICQFKLVLLGESAVGKSSLVLRFVKGQ FHEFQESTGAAFLTQTVCLDDTTVKFEIWDTAGQERYEHSLAPMYYRGAQAAIVVYDI TNEESFARAKNMVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFM ETSAKTSMNVNEIFMAIAKKLPKNEPQNPGANSARGRGVDLTEPTQPTRNQCCSN GENBANK ID: U33635.1 VERSION U33635.1 GI:1016701 MGAARGSPARPRRLPLLSVLLLPLLGGTQTAIVFIKQPSSQDAL QGRRALLRCEVEAPGPVHVYWLLDGAPVQDTERRFAQGSSLSFAAVDPLQDSGTFQCV ARDDVTGEEARSANASFNIKWIEAGPVVLKHPASEAEIQPQTQVKLRCHIDGMPRFTY QWFRDGTPLSDGQSNHTVSSKERNLTLRPAGPEHSGLYSCCAHSAFSQACSSQNFTLS IADESFARVVLAPQDVVVARYEEAMFHCQFSAQPPPSLQWLFEDETPITNRSRPPHLR RATVFANGSLLLTQVRPRNAGIYRCIGQGQRGPPIILEATLHLAEIEDMPLFEPRVFT AGSEERVTCLPPKGLFEPSVWWEHAGVRLFTHGRVYQKGHELVLANIAESDAGVYTCH AANLAGQRRQDVNITVATVPSWLKKPQDSQLEECKPGYLDCLTQATPKFTVVWYRNQM LISEDSRFEVFKNGTLRINSVEVYDGTWYRCMSSTPAGSIEAQAVLQVLEKLKFTPPP QPQQCMGFDKEATVFCSATGREKPTIKWERADGSSLPEWVPDNAGTLHFARVTRDDAG NYTCIASNGPQGQIRAHVQLTVAVFITFKVEPERITVYQGHTALLQCEAQGDPKPLIQ WKGKDRILDPTKLGPRMHIFQNCSLVIHDVAPEDSGRYTCIAGNSCNIKHTEAPLYVV DKPVPEESEGPGSPPPYKMIQTIGLSVGAAVAYIIAVLGLMFYCKKRCKAKRLQKQPE GEEPEMECLNGGPLQNGQPSAEIQEEVALTSLGSGPAATNKRHSTSDKMHFPRSSLQP ITTLGKSEFGEVFLAKAQGLEEGVAETLVLVKSLQSKDEQQQLDFRRELEMFGKLNHA NVVRLLGLCREAEPHYMVLEYVDLEDLKQFLRISKSKDEKLKSQPLSIKQKVALCTQV ALGMEHLSNNRFVNKDLAARNCLVSAQRQVKVSALGLSKDVYNSEYYHFRQANVALRW MSPEAILEGDFSTKSDVNASGVLMWEVFTHGEMPHGGQADDEVLADLQAGKARLFQPE GCPSKLYRLMQRCWALSPKDRPSESEIASALGDSTVDSKP GENBANK ID: XM_004559.5 VERSION XM_004559.5 GI:17464405 MGPEALSSLLLLLLVASGDADMKGHFDPAKCRYALGMQDRTIPD SDISASSSNSDSTAARHSRLESSSDGDGAWCPAGSVFPKEEEYLQVDLQRLHLVALGT QGRHAGGLGKEFSRSYRLRYSRDGRRWMGWKDRWGQEVIS0NEDFEGVVLKDLGPPMV ARLVRFYFRADRVMSVCLRVELYGCLWRDGLLSYTAPVGQTNYLSEAVYLNDSTYDGH TVGGLQYGGLGQLADGVVGLDDFRKSQELRVWPGYDYVGWSNHSFSSGYVEMEFEFDR LRAFQAMQVHCNNMHTLGARLPGGVECRFRRGFAMAWEGEPMRHNLGGNLGDPRARAV SVPLGGRVARFLQCRFLFACPNLLFSEISFISDVVNNSSPALGGTFPPAPNNPPGPPP TNFSSLELEPRGQQPVAKAEGSPTAILIGCINAIILLLLLIIALMLWRLHWRRLLSKA ERRVLEEELTVHLSVPGDTILINNRPGPREPPPYQEPRPRGNFPHSAPCVPNGSALLL SNPAYRLLLATYARPPRGPGFPTPAWAKPTNTQAYSGDYMEPEKPGAPLLFPPFQNSV PEYAEADIVTLQCVTGGNTYAVPALPPGAVGDGPPRVDFPRSRLRFKEKLGEGQFGEV HLCEVDSPQDLVSLDFPLNVRKGHPLLVAVKILRPDATKNARNDFLKEVKINSRLKDP NIIRLLGVCVQDDPLCMITDYMENGDLNQELSAHQLEDKAAEGAPGDGQAAQGPTISY PMLLHVAAQIASGMRYLATLNFVHRDLATRNCLVGENFTIKIAGFGMSRNLYAGDYYR VQGRAVLPIRWMAWECILNGKFTTASDVWAFGVTLWEVLMLCRAQPEGQLTDEQVIEN AGEFFRDQGRQVYLSRPPACPQGLYELMLRCWSRESEQRPPFSQLHRFLAEDALNTV GENBANK ID: M28212.1 VERSION M28212.1 GI:550071 /GENE=“RAB6” CDS 71..697 /CODON_START=1 1 AGCTGGCTGG AGCAGGATCG GTCCGGGACG GTCICTAGGC TGAGGCGGCG GCCGCTCCTC 61 TAGTTCCACA ATGTCCACGC GGGGAGACTT CGCGAATCCG CTGACGAAAT TCAAGCTGGT 121 GTTCCTGGGG GAGCAAAGCG TTGGAAAGAC ATCTTTGATC ACCAGATTCA TGTATGACAG 181 TTTTGACAAC ACCTATCAGG CAACAATTGG CATTGACTTT TTATCAAAAA CTATGTACTT 241 GGAGGATCGA ACAGTACGAT TGCAATTATG GGACACACCA GGTCAAGAGC GGTTCAGGAG 301 CTTGATTCCT AGCTACATTC GTGACTCCAC TGTGGCAGTT GTTGTTTATG ATATCACAAA 361 TGTTAACTCA TTCCAGCAAA CTACAAAGTG GATTGATGAT GTCAGAACAG AAAGAGGAAG 421 TGATGTTATC ATCATGCTAG TAGGAAATAA AACAGATCTT GCTGACAAGA GGCAAGTGTC 481 AATTGAGGAG GGAGAGAGGA AAGCCAAAGA GCTGAATGTT ATGTTTATTG AAACTAGTGC 541 AAAAGCTGGA TACAATGTAA AGCAGCTCTT TCGACGTGTA GCAGCAGCTT TGCCGGGAAT 601 GGAAAGCACA CAGGACAGAA GCAGAGAAGA TATGATTGAC ATAAAACTGG AAAAGCCTCA 661 GGAGCAACCA GTCAGTGAAG GAGGCTGTTC CTGCTAATGT CCCTAGTCAT CTTCAACCTT 721 CTTCAGAAGC TCACTGCTTT GENBANK ID: M65066.1 VERSION M65066.1 GI:307376 /GENE=“PRKAR1B” CDS <1..1144 /CODON_START=2 1 GGCCTCCCCG CCCGCCTGCC CCTCGGAGGA GGACCAGAGC CTGAAGGGCT GTGAGCTGTA 61 CGTGCAGCTG CACGGGATCC AGCAGGTCCT CAAAGACTGT ATCGTCCACC TCTGCATCTC 121 CAAGCCCGAA CGCCCCATGA AGTTCCTCCG GGAGCACTTC GAGAAGCTGG AGAAGGAAGA 181 AAACAGGCAG ATTTTGGCGC GGCAAAAGTC AAACTCACAG TCGGACTCCC ATGATGAGGA 241 GGTGTCGCCC ACCCCCCCGA ACCCTGTGGT GAAGGCCCGC CGCCGGCGAG GAGGCGTGAG 301 TGCCGAGGTG TACACCGAGG AGGACGCCGT GTCCTACGTC AGGAAGGTGA TTCCCAAGGA 361 CTACAAAACC ATGACTGCGC TGGCCAAGGC CATCTCCAAG AACGTGCTCT TCGCTCACCT 421 GGATGACAAC GAGAGGAGTG ACATATTCGA TGCCATGTTC CCTGTCACTC ACATCGCTGG 481 GGAGACTGTT ATACAGCAAG GGAATGAAGG AGACAACTTC TATGTCGTTG ATCAAGGGGA 541 AGTGGATGTG TACGTGAACG GAGAGTGGGT GACCAACATC AGCGAGGGAG GCAGCTTCGG 601 GGAGCTGGCG CTCATCTACG GCACCCCCAG GGCTGCGACC GTGAAAGCCA AGACGGACCT 661 CAAGCTCTGG GGGATCGACC CGGACAGCTA CCGGCGCATC CTTATGGGCA GCACGCTGAG 721 GAAACGCAAG ATGTACGAGG AGTTCCTCAG CAAGGTCTCC ATCCTAGAGT CCCTGGAGAA 781 GTGGGAGCGT CTGACCGTGG CGGATCGGCT GGAGCCCGTC CAGTTTGAAG ATGGAGAGAA 841 AATTGTGGTC CAGGGAGAGC CTCGGGACCA CTTTTACATC ATCACGGAGG GCACCGCGTC 901 CGTGCTGCAG CGCCGGTCCC CCAATGAGGA CTACCTCGAG GTGGGGCGCC TGGGACCCTC 961 TGACTACTTC GCGGAGATTC CACTCCTCCT GAACCGGCCC CGGGCGGCCA CTGTCGTGGC 1021 CCGGGGGCCC CTCAAGTGTG TGAAGCTGGA CCGGCCCCGC TTCGAGCGTG TGCTGGGGCC 1081 CTGCTCTGAG ATCCTCAAGA GGAACATTCA GCGTTACAAC AGCTTCATCT CCCTCACCGT 1141 CTGAGCACAC GTCCCGCCCT GCAGCCCCAG CTCCCCAGTG TGGTGGCCGT GCCTGCTCGT 1201 CTGTGTCGGG GGCCCGGGAG CCGCTGTGTG AGGIGIGGCC CGGGTGGGGC TGGGTCCCGG 1261 CAGCGTGAGG ACTGCCCCTT CCCCGGACTC ACTTTTTGGA ATAAATGATC ACCTTCTCCA 1321 TTTCCAAATC AAAGGACAAG CGGACAAAAT GCATCCCAAG ATCAAGGAAG GGACAGCCCA 1381 GCTTCCTCCC CACACGCCTC CCCGGCTGCC TCTGTGGGCT TCTCCTGGGG GGCCCACCCC 1441 ACCCCTGCCA GTCTCCTGGA GATGCTTGAG GATCGGTCCT CCCCAGAAGC AGGCCAGGAC 1501 GTTGCCCCTG GCGGCTGGTG ACCCTGTGAG GTCAGGTCCC CCAGATTGAG GTCTGAGTGT 1561 GGGCAAGTGT GTCAAAAGGG GCTGCCCCCC AGGAGATGAG GCTGAGAGCA GGGAGTTGAG 1621 GCCGAAGAAG TCAAGGCCCC TCCCGCAAAT GTGTACCCCT GCCCGCGCCA CTGCACCCCG 1681 CCGCACCCCC ACCTCCCCGG GGGCCCTGCT GCGGATCGCG GACTGGGAGA GTCTCTGAGC 1741 TATGAGATTG ATCTTGCCCC TAATTGGAGA GGAAGCCGGG CGCCAAGACA CACGGGGCTC 1801 CTGCCTTGGG AGCCAGGGCC GCGGCCGCAG GTAGACCCCA GTAGGGGGGG CCGGGCTCGA 1861 AGTTCCTTTG GGAGGGGCTG GCCGGACTCC AGCAGGCCCT CCTCACCTTT CTTAGAAAGT 1921 CCACCCAGGG CAAGTTGATG TTGGGGGAAA GCAGAAGTCA AGCCAGCCGC GGCCCCACAC 1981 GCCCCCACCC GCTCAACCGA CTTGTCCCTT AAATGTGTCT TGGATCCCGC AGTGATGACG 2041 TGAGCCAGCC AGGCCCGAAA AGGTGAGGCC ACTGCAGAGA AGCTTCCCAG GGGATTCCTG 2101 GTTCCCCCGA AACACAAGCG AGGTCATTGC AGTTCACCCG ATGTTGCTCC TGTCCCGTGC 2161 GTCCCCGGGA GGCTGTCCTT GGTCCGCATG GCTCGTTGCA GCCCCTCCCC TGCTGGCGGT 2221 TACGATGCGT GGGGTCCCCC TCCCCACCCA GCCCCGGCAC CGTCGCCGTG TCCCGCCTGT 2281 GCCTGTGACG TCCCTGTGGA CCTGTGAGCC ATCCCCCCCT TATCTCTGCT CTGAATACTG 2341 CATGAAGCAT TAAACGTGCA ATGAAG GENBANK ID: U04897.1 VERSION U04897.1 GI:451563 CDS 102..1673 /CODON_START=1 1 GTTTTTTTTT TTTTTTTGGT ACCATAGAGT TGCTCTGAAA ACAGAAGATA GAGGGAGTCT 61 CGGAGCTCGC ATCTCCAGCG ATCTCTACAT TGGGAAAAAA CATGGAGTCA GCTCCGGCAG 121 CCCCCGACCC CGCCGCCAGC GAGCCAGGCA GCAGCGGCGC GGACGCGGCC GCCGGCTCCA 181 GGGAGACCCC GCTGAACCAG GAATCCGCCC GCAAGAGCGA GCCGCCTGCC CCGGTGCGCA 241 GACAGAGCTA TTCCAGCACC ACCAGAGGTA TCTCAGTAAC GAAGAAGACA CATACATCTC 301 AAATTGAAAT TATTCCATGC AAGATCTGTG GAGACAAATC ATCAGGAATC CATTATGGTG 361 TCATTACATG TGAAGGCTGC AAGGGCTTTT TCAGGAGAAG TCAGCAAAGC AATGCCACCT 421 ACTCCTGTCC TCGTCAGAAG AACTGTTTGA TTGATCGAAC CAGTAGAAAC CGCTGCCAAC 481 ACTGTCGATT ACAGAAATGC CTTGCCCTAG GGATGTCTCG AGATGCTGTA AAATTTGGCC 541 GAATGTCAAA AAAGCAGAGA GACAGCTTGT ATGCAGAAGT ACAGAAACAC CGGATGCAGC 601 AGCAGCAGCG CGACCACCAG CAGCAGCCTG GAGAGGCTGA GCCGCTGACG CCCACCTACA 661 ACATCTCGGC CAACGGGCTC ACGGAACTTC ACGACGACCT CAGTAACTAC ATTGACGGGC 721 ACACCCCTGA GGGGAGTAAG GCACACTCCG CCGTCAGCAG CTTCTACCTG GACATACAGC 781 CTTCCCCAGA CCAGTCAGGT CTTGATATCA ATGGAATCAA ACCAGAACCA ATATGTGACT 841 ACACACCAGC ATCAGGCTTC TTTCCCTACT GTTCCTTCAC CAACGGCGAG ACTTCCCCAA 901 CTGTGTCCAT GGCAGAATTA GAACACCTTG CACAGAATAT ATCTAAATCG CATCTGGAAA 961 CCTGCCAATA CTTGAGAGAA GAGCTCCAGC AGATAACGTG GCAGACCTTT TTACAGGAAG 1021 AAATTGAGAA CTATCAAAAC AAGCAGCGGG AGGTGATGTG GCAATTGTGT GCCATCAAAA 1081 TTACAGAAGC TATACAGTAT GTGGTGGAGT TTGCCAAACG CATTGATGGA TTTATGGAAC 1141 TGTGTCAAAA TGATCAAATT GTGCTTCTAA AAGCAGGTTC TCTAGAGGTG GTGTTTATCA 1201 GAATGTGCCG TGCCTTTGAC TCTCAGAACA ACACCGTGTA CTTTGATGGG AAGTATGCCA 1261 GCCCCGACGT CTTCAAATCC TTAGGTTGTG AAGACTTTAT TAGCTTTCTG TTTGAATTTG 1321 GAAAGAGTTT ATCTTCTATG CACCTGACTG AAGATGAAAT TGCATTATTT TCTGCATTTG 1381 TACTGATGTC AGCAGATCGC TCATGGCTGC AAGAAAAGGT AAAAATTGAA AAACTGCAAC 1441 AGAAAATTCA GCTAGCTCTT CAACACGTCC TACAGAAGAA TCACCGAGAA GATGGAATAC 1501 TAACAAAGTT AATATGCAAG GTGTCTACAT TAAGAGCCTT ATGTGGACCA CATACAGAAA 1561 AGCTAATGGC ATTTAAAGCA ATATACCCAG ACATTGTGCG ACTTCATTTT CCTCCATTAT 1621 ACAAGGAGTT GTTCACTTCA GAATTTGAGC CAGCAATGCA AATTGATGGG TAAATGTTAT 1681 CACCTAAGCA CTTCTAGAAT GTCTGAAGTA CAAACATGAA AAACAAACAA AAAAATTAAC 1741 CGAGACACTT TATATGGCCC TGCACAGACC TGGAGCGCCA CACACTGCAC ATCTTTTGGT 1801 GATCGGGGTC AGGCAAAGGA GGGGAAACAA TGAAAACAAA TAAAGTTGAA CTTGTTTTTC 1861 TCA GENBANK ID: P53667 DBEST ID: 1741245 EST NAME: AN07C08.S1 ACTGGGCTCCCCGGTCTCCCATCGCAAGGACCTGGGTCGCTCTGAGTCCCTCCGCGTAGT CTGCCGGCCACACCGCATCTTCCGGCCGTCGTATCTCATCCACGGTGAGGTGCTGGGCAA GGGCTGCTTCGGCTATGCTATCAATGTGACATACTGTGAGACAGGTGATGTGATGGTGAT GAAGGAGCTGATCCGGTTCGACGAGGAGACCCAGAGGACGTTCCTCAACGAGGTGAATGT CATT GENBANK ID: NM_002737.1 VERSION NM_002737.1 GI:4506066 CDS 28..2046 1 GGAGCAAGAG GTGGTTGGGG GGGGACCATG GCTGACGTTT TCCCGGGCAA CGACTCCACG 61 GCGTCTCAGC ACGTGGCCAA CCGCTTCGCC CCCAAACGCG CGCTGAGGCA GAAGAACGTG 121 CACGAGGTGA AGGACCACAA ATTCATCGCG CGCTTCTTCA AGCAGCCCAC CTTCTCCAGC 181 CACTGCACCG ACTTCATCTG GGGGTTTGGG AAACAAGGCT TCCAGTGCCA AGTTTGCTGT 241 TTTGTGGTCC ACAAGAGCTG CCATGAATTT CTTACTTTTT CTTGTCCGGC TGCGGATAAG 301 GGACCCGACA CTGATGACCC CAGGAGCAAC CACAAGTTCA AAATCCACAC TTACGCAAGC 361 CCCACCTTCT GCGATCACTC TGGGTCACTG CTCTATGGAC TTATCCATCA AGCGATGAAA 421 TCTGACACCT GCGATATGAA CGTTCACAAC CAATGCGTCA TCAATGTCCC CACCGTGTGC 481 GCAATCGATC ACACTGAGAA GAGGGCGCGG ATTTACCTAA AGGCTGAGCT TGCTGATCAA 541 AAGCTCCATG TCACAGTACG ACATGCAAAA AATCTAATCC CTATGGATCC AAACGGCCTT 601 TCAGATCCTT ATGTGAAGCT GAAACTTATT CCTGATCCCA AGAATGAAAG CAACCAAAAA 661 ACCAAAACCA TCCGCTCCAC ACTAAATCCG CAGTGCAATG ACTCCTTTAC ATTCAAATTG 721 AAACCTTCAG ACAAAGACCG ACGACTGTCT GTACAAATCT GCGACTGCGA TCGAACAACA 781 AGGAATCACT TCATGGGATC CCTTTCCTTT GGAGTTTCGC ACCTGATGAA GATCCCGGCC 841 AGTGGATGGT ACAAGTTCCT TAACCAACAA GAACGTGAGT ACTACAACGT ACCCATTCCC 901 GAACGGGACG AGGAAGGAAA CATCGAACTC ACGCAGAAAT TCGAGAAACC CAAACTTCCC 961 CCTGCTGCCA ACAAAGTCAT CAGTCCCTCT GAAGACAGGA AACAACCTTC CAACAACCTT 1021 GACCGAGTGA AACTCACGGA CTTCAATTTC CTCATGGTGT TGGGAAACGC CAGTTTTCCA 1081 AAGGTCATGC TTGCC3ACAG GAAGGGCACA GAACAACTGT ATGCAATCAA AATCCTGAAG 1141 AACGATGTGG TGATTCAGCA TGATGACGTG GAGTGCACCA TGGTAGAAAA GCGACTCTTC 1201 GCCCTGCTTG ACAAACCCCC GTTCTTGACC CAGCTGCACT CCTCCTTCCA GACAGTGGAT 2261 CGGCTCTACT TCGTCATGGA ATATGTCAAC GGTGGGGACC TCATGTACCA CATTCAGCAA 1321 GTAGGA~AAT TTAAGGAACC ACAAGCAGTA TTCTATGCGC CAGAGATTTC CATCGGATTG 1381 TTCTTTCTTC ATAAAAGAGG AATCATTTAT AGGGATCTCA ACTTACATAA CGTCATGTTG 1441 GATTCAGAAG GACATATCAA AATTGCTGAC TTTGGGATGT GCAAGGAACA CATGATGGAT 1501 GGAGTCACGA CCAGGACCTT CTGTGCGACT CCACATTATA TCGCCCCAGA GATAATCCCT 1561 TATCAGCCGT ATGGAAAATC TGTGGACTGG TGGGCCTATC CCGTCCTGTT GTATGAAATG 1621 CTTGCCGCGC AGCCTCCATT TGATGGTCAA GATGAAGACG AGCTATTTCA GTCTATCATG 1681 GAGCACAACG TTTCCTATCC AAAATCCTTG TCCAAGCAGC CTGTTTCTAT CTGCAAAGGA 1741 CTGATGACCA AACACCCAGC CAAGCGCCTG GGCTGTGGGC CTGAGGGGGA GAGGGACGTG 1801 AGAGAGCATG CCTTCTTCCG GAGGATCGAC TGGGAAAAAC TGGAGAACAG GGAGATCGAG 1861 CCACCATTCA AGCCCAAAGT GTGTGGCAAA GGACCACAGA ACTTTGACAA GTTCTTCACA 1921 CGAGGACAGC CCGTCTTAAC ACCACCTGAT CAGCTGGTTA TTGCTAACAT AGACCAGTCT 1981 GATTTTGAAG GGTTCTCGTA TGTCAACCCC CAGTTTGTGC ACCCCATCTT ACAGACTGCA 2041 GTATGAAACT CACCAGCGAG AACAAACACC TCCCCAGCCC CCAGCCCTCC CCGCAGTGGA 2101 AGTGAATCCT TAACCCTAAA ATTTTAAGGC CACGGCTTGT GTCTGATTCC ATATGGAGGC 2161 CTGAAAATTG TAGGGTTATT AGTCCAAATG TGATCAACTG TTCAGGGTCT CTCTCTTACA 2221 ACCAAGAACA TTATCTTAGT GGAAG GENBANK ID: M16038.1 VERSION M16038.1 GI:187268 MGCIKSKGKDSLSDDGVDLKTQPVRNTERTIYVRDPTSNKQQRP VPESQLLPGQRFQTKDPEEQGDIVVALYPYDGIHPDDLSFKKGEKMKVLEEHGEWWKA KSLLTKKEGFIPSNYVAKLNTLETEEWFFKDITRKDAERQLLAPGNSAGAFLIRESET LKGSFSLSVRDFDPVHGDVIKHYKIRSLDNGGYYISPRITFPCISDMIKHYQKQADGL CRRLEKACISPKPQKPWDRDANEIPRESIKLVKRLGAGQFGEVWMGYYNNSTKVAVKT LKPGTNSVQAFLEEANLMKTLQHDKLVRLYAVVTREEPIYIITEYMAKGSLLDFLKSD EGGKVLLPKLIDFSAQIAEGMAYIERKNYIHRDLRAANVLVSESLMCKIADFGLARVI EDNEYTAREGAKFPIKWTAPEAINFGCFTIKSDVWSFGILLYEIVTYGKIPYPGRTNA DVMTALSQGYRMPRVENCPDELYDIMKNCWKEKAEERPTFDYLQSVLDDFYTATEGQY QQQP GENBANK ID: 012128.1 VERSION 012128.1 GI:557287 CDS 218..7690 /GENE=“PTP1E” /CODON_START=1 1 CTGATTATGA AGTGCCTCAG AGCCAACCTA TTAAGCTTGG AGATCATCTC AACAGCATAC 61 TGCTTGGAAT GTGTGAGGAT GTTAITTACG CTCGAGTTTC TGTICGGACT GTGCTGGATG 121 CTTGCAGTGC CCACATTAGG AATAGCAATT GTGCACCCTC ATTTTCCTAC GTGAAACACT 181 TGGTAAAACT GGTICTGGGA AATCTTTCTG GGGTAATATG CACGTGTCAC TAGCTGAGGC 241 CCTGGAGGTT CGGGGTGGAC CACTTCAGGA GGAAGAAATA TGGGCTGTAT TAAATCAAAG 301 TGCTGAAAGT CTCCAAGAAT TATTCAGAAA AGTAAGCCTA GCTGATCCTG CTGCCCTTGG 361 CTTCATCATT TCTCCATGGT CTCTGCTGTT GCTGCCATCT GGTAGTGTGT CATTTACAGA 421 TGAAAATATT TCCAATCAGG ATCTTCCAGC ATTCACTGCA CCAGAGGTTC TTCAAAATCA 481 GTCACTAACT TCTCTCTCAG ATGTTGAAAA GATCCACATT TATTCTCTTG GAATGACACT 541 GTATTGGGGG GGTGATTATG AAGTGCCTCA GAGCCAACCT ATTAAGCTTG GAGATCATCT 603 CAACAGCATA CTGCTTGGAA TGTGTGAGGA TGTTATTTAC GCTCGAGTTT CTGTTCGGAC 661 TGTGCTGGAT GCTTGCAGTG CCCACATTAG GAATAGCAAT TGTGCACCCT CATTTTCCTA 721 CGTGAAACAC TTGGTAAAAC TGGTTCTGGG AAATCTTTCT GCGACAGATG AGCTTTCCTG 781 TAACAGTGAA CAAAAGCCTG ATCGAAGCCA GGCTATTCGA GATCGATTGC GAGGAAAAGG 841 ATTACCAACA GGAAGAAGCT CTAGTTCTGA TGTACTAGAC ATACAAAAGC CTCCACTCTC 901 TCATCAGACC TTTCTTAACA AAGGGCTTAG TAAATCTATG GGATTTCTGT CCATCAAAGA 961 TACACAAGAT GAGAATTATT TCAAGGACAT TTTATCAGAT AATTCTGGAC GTGAAGATTC 1021 TGAAAATACA TTCTCCCCTT ACCAGTTCAA AACTAGTGGC CCAGAAAAAA AACCCATCCC 1081 TGGCATTGAT GTGCTTTCTA AGAAGAAGAT CTGGGCTTCA TCCATGGACT TGCTTTGTAC 1141 AGCTGACAGA GACTTCTCTT CAGGAGAGAC TGCCACATAT CGTCGTTGTC ACCCTGAGGC 1201 AGTAACAGTG CGGACTTCAA CTACTCCTAG AAAAAAGGAG GCAAGATACT CAGATGGAAG 1261 TATAGCCTTG GATATCTTTG GCCCTCAGAA AATGGATCCA ATATATCACA CTCGAGAATT 1321 GCCCACCTCC TCAGCAATAT CAAGTGCTTT CGACCGAATC CGAGAGAGAC AAAAGAAACT 1381 TCAGGTTCTG AGGGAAGCCA TGAATGTAGA AGAACCAGTT CGAAGATACA AAACTTATCA 1441 TGGTGATGTC TTTAGTACCT CCAGTGAAAG TCCATCTATT ATTTCCTCTG AATCAGATTT 1501 CAGACAAGTG AGAAGAAGTG AAGCCTCAAA GAGGTTTGAA TCCAGCAGTG GTCTCCCAGG 1561 GGTAGATGAA ACCTTAAGTC AAGGCCAGTC ACAGAGACGG AGCAGACAAT ATGAAACACC 1621 CTTTGAAGGC AACTTAATTA ATCAAGAGAT CATGCTAAAA CGGCAAGAGG AAGAACTGAT 1681 GCAGCTACAA GCCAAAATGG CCCTTAGACA GTCTCGGTTG AGCCTATATC CAGGAGACAC 1741 AATCAAAGCG TCCATGCTTG ACATCACCAG GGATCCGTTA AGAGAAATTG CCCTAGAAAC 1801 AGCCATGACT CAAAGAAAAC TGAGGAATTT CTTTGGCCCT GAGTTTGTGA AAATGACAAT 1861 TGAACCATTT ATATCTTTGG ATTTGCCACG GTCTATTCTT ACTAAGAAAG GGAAGAATGA 1921 GGATAACCGA AGGAAAGTAA ACATAATGCT TCTGAACGGG CAAAGACTGG AACTGACCTG 1981 TGATACCAAA ACTATATGTA AAGATGTGTT TGATATGGTT GTGGCACATA TTGGCTTAGT 2041 AGAGCATCAT TTGTTTGCTT TAGCTACCCT CAAAGATAAT GAATATTTCT TTGTTGATCC 2101 TGACTTAAAA TTAACCAAAG TGGCCCCAGA GGGATGGAAA GAAGAACCAA AGAAAAAGAC 2161 CAAAGCCACT GTTAATTTTA CTTTGTTTTT CAGAATTAAA TTTTTTATGG ATGATGTTAG 2221 TCTAATACAA CATACTCTGA CGTGTCATCA GTATTACCTT CAGCTTCGAA AAGATATTTT 2281 GGAGGAAAGG ATGCACTGTG ATGATGAGAC TTCCTTATTG CTGGCATCCT TGGCTCTCCA 2341 GGCTGAGTAT GGAGATTATC AACCAGAGGT TCATGGTGTG TCTTACTTTA GAATGGAGCA 2401 CTATTTGCCC GCCAGAGTGA TGGAGAAACT TGATTTATCC TATATCAAAG AAGAGTTACC 2461 CAAATTGCAT AATACCTATG TGGGAGCTTC TGAAAAAGAG ACAGAGTTAG AATTTTTAAA 2521 GGTCTGCCAA AGACTGACAG AATATGGAGT TCATTTTCAC CGAGTGCACC CTGAGAAGAA 2581 GTCACAAACA GGAATATTGC TTGGAGTCTG TTCTAAAGGT GTCCTTGTGT TTGAAGTTCA 2641 CAATGGAGTG CGCACATTGG TCCTTCGCTT TCCATGGAGG GAAACCAAGA AAATATCTTT 2701 TTCTAAAAAG AAAATCACAT TGCAAAATAC ATCAGATGGA ATAAAACATG GCTTCCAGAC 2761 AGACAACAGT AAGATATGCC AGTACCTGCT GCACCTCTGC TCTTACCAGC ATAAGTTCCA 2821 GCTACAGATG AGAGCAAGAC AGAGCAACCA AGATGCCCAA GATATTGAGA GAGCTTCGTT 2881 TAGGAGCCTG AATCTCCAAG CAGAGTCTGT TAGAGGATTT AATATGGGAC GAGCAATCAG 2941 CACTGGCAGT CTGGCCAGCA GCACCCTCAA CAAACTTGCT GTTCGACCTT TATCAGTTCA 3001 AGCTGAGATT CTGAAGAGGC TATCCTGCTC AGAGCTGTCG CTTTACCAGC CATTGCAAAA 3061 CAGTTCAAAA GAGAAGAATG ACAAAGCTTC ATGGGAGGAA AAGCCTAGAG AGATGAGTAA 3121 ATCATACCAT GATCTCAGTC AGGCCTCTCT CTATCCACAT CGGAAAAATG TCATTGTTAA 3181 CATGGAACCC CCACCACAAA CCGTTGCAGA GTTGGTGGGA AAACCTTCTC ACCAGATGTC 3241 AAGATCTGAT GCAGAATCTT TGGCAGGAGT GACAAAACTT AATAATTCAA AGTCTGTTGC 3301 GAGTTTAAAT AGAAGTCCTG AAAGGAGGAA ACATGAATCA GACTCCTCAT CCATTGAAGA 3361 CCCTGGGCAA GCATATGTTC TAGGAATGAC TATGCATAGT TCTGGAAACT CTTCATCCCA 3421 AGTACCCTTA AAAGAAAATG ATGTGCTACA CAAAAGATGG AGCATAGTAT CTTCACCAGA 3481 AAGGGAGATC ACCTTAGTGA ACCTGAAAAA AGATGCAAAG TATGGCTTGG GATTTCAAAT 3541 TATTGGTGGG GAGAAGATGG GAAGACTGGA CCTAGGCATA TTTATCAGTT CAGTTGCCCC 3601 TGGAGGACCA GCTGACTTGG ATGGATGCTT GAAGCCAGGA GACCGTTTGA TATCTGTGAA 3661 TAGTGTGAGT CTGGAGGGAG TCAGCCACCA TGCTGCAATT GAAATTTTGC AAAATGCACC 3721 TGAAGATGTG ACACTTGTTA TCTCTCAGCC AAAAGAAAAG ATATCCAAAG TGCCTTCTAC 3781 TCCTGTGCAT CTCACCAATG AGATGAAAAA CTACATGAAG AAATCTTCCT ACATGCAAGA 3841 CAGTGCTATA GATTCTTCTT CCAAGGATCA CCACTGGTCA CGTGGTACCC TGAGGCACAT 3901 CTCGGAGAAC TCCTTTGGGC CGTCTGGGGG CCTGCGGGAA GGAAGCCTGA GTTCTCAAGA 3961 TTCCAGGACT GAGAGTGCCA GCTTGTCTCA AAGCCAGGTC AATGGTTTCT TTGCCAGCCA 4021 TTTAGGTGAC CAAACCTGGC AGGAATCACA GCATGGCAGC CCTTCCCCAT CTGTAATATC 4081 CAAAGCCACC GAGAAAGAGA CTTTCACTGA TAGTAACCAA AGCAAAACTA AAAAGCCAGG 4141 CATTTCTGAT GTAACTGATT ACTCAGACCG TGGAGATTCA GACATGGATG AAGCCACTTA 4201 CTCCAGCAGT CAGGATCATC AAACACCAAA ACAGGAATCT TCCTCTTCAG TGAATACATC 4261 CAACAAGATG AATTTTAAAA CTTTTTCTTC ATCACCTCCT AAGCCTGGAG ATATCTTTGA 4321 GGTTGAACTG GCTAAAAATG ATAACAGCTT GGGGATAAGT GTCACGGTAC TGTTTGACAA 4281 GGGAGGTGTG AATACGAGTG TCAGACATGG TGGCATTTAT GTGAAAGCTG TTATTCCCCA 4441 GGGAGCAGCA GAGTCTGATG GTAGAATTCA CAAAGGTGAT CCCGTCCTAC CTGTCAATGG 4501 AGTTAGTCTA GAAGGAGCCA CCCATAAGCA AGCTCTGGAA ACACTCACAA ATACAGGACA 4561 GGTGCTTCAT CTGTTATTAG AAAAGGGACA ATCTCCAACA TCTAAAGAAC ATGTCCCGGT 4621 AACCCCACAG TGTACCCTTT CAGATCAGAA TGCCCAAGGT CAAGGCCCAG AAAAACTGAA 4681 GAAAACAACT CAGGTCAAAG ACTACAGCTT TGTCACTGAA GAAAATACAT TTGAGGTAAA 4741 ATTATTTAAA AATAGCTCAG GTCTAGGATT CAGTTTTTCT CGAGAAGATA ATCTTATACC 4801 GGAGCAAATT AATGCCAGCA TAGTAAGGGT TAAAAAGCTC TTTCCTGGAC AGCCAGCAGC 4861 AGAAAGTGGA AAAATTGATC TAGGAGATGT TATCTTGAAA GTGAATGGAG CCTCTTTGAA 4921 AGGACTATGT CAGCAGGAAG TCATATCTGC TCTCAGGGGA ACTGCTGCAG AAGTATTCTT 4981 GCTTCTCTGC AGACCTCCAC CTGGTGTGCT ACCGGAAATT GATACTGCGC TTTTGACCCC 5041 ACTTCAGTCT CCAGCACAAG TACTTCCAAA CAGCAGTAAA GACTCTTCTC AGCCATCATG 5101 TGTGGAGCAA AGCACCAGCT CAGATGAAAA TGAAATGTCA GACAAAAGCA AAAAACAGTG 5161 CAAGTCCCCA TCCAGAAGAG ACAGTTACAG TGACAGCAGT GGGAGTGGAG AAGATGACTT 5221 AGTGACAGCT CCAGCAAACA TATCAAATTC GACCTGGAGT TCAGCTTTGC ATCAGACTCT 5281 AAGCAACATG GTATCACAGG CACAGAGTCA TCATGAAGCA CCCAAGAGTC AAGAAGATAC 5241 CATTTGTACC ATGTTTTACT ATCCTCAGAA AATTCCCAAT AAACCAGAGT TTGAGGACAG 5401 TAATCCTTCC CCTCTACCAC CGGATATGGC TCCTGGGCAG AGTTATCAAC CCCAATCAGA 5461 ATCTGCTTCC TCTAGTTCGA TGGATAAGTA TCATATACAT CACATTTCTG AACCAACTAG 5521 ACAAGAAAAC TGGACACCTT TGAAAAATGA CTTGGAAAAT CACCTTGAAG ACTTTGAACT 5581 GGAAGTACAA CTCCTCATTA CCCTAATTAA ATCAGAAAAA GGAAGCCTGG GTTTTACAGT 5641 AACCAAAGCC AATCAGAGAA TTGGTTGTTA TGTTCATGAT GTCATACAGG ATCCAGCCAA 5701 AAGTGATGGA AGGCTAAAAC CTCGGGACCG GCTCATAAAG GTTAATGATA CAGATGTTAC 5761 TAATATGACT CATACAGATG CAGTTAATCT GCTCCGGGCT GCATCCAAAA CAGTCAGATT 5821 AGTTATTCGA CGAGTTCTAG AATTACCCAG AATACCAATG TTGCCTCATT TGCTACCGGA 5881 CATAACACTA ACGTGCAACA AAGAGGAGTT GGGTTTTTCC TTATGTGGAG GTCATGACAG 5941 CCTTTATCAA GTGGTATATA TTAGTGATAT TAATCCAAGG TCCGTCGCAG CCATTGAGGG 6001 TAATCTCCAG CTATTAGATG TCATCCATTA TGTGAACGGA GTCAGCACAC AAGGAATGAC 6061 CTTGGAGGAA GTTAACAGAG CATTAGACAT CTCACTTCCT TCATTGGTAT TGAAACCAAC 6121 AAGAAATGAT CTTCCAGTGG TCCCCAGCTC AAAGAGGTCT GCTGTTTCAG CTCCAAAGTC 6181 AACCAAAGGC AATGGTTCCT ACAGTGTGGG GTCTTCCAGC CAGCCTGCCC TCACTCCTAA 6241 TGATTCATTC TCCACGGTTG CTGGGGAAGA AATAAATGAA ATATCGTACC CCAAAGGAAA 6301 ATGTTCTACT TATCAGATAA AGGGATCACC AAACTTGACT CTGCCCAAAG AATCTTATAT 6261 ACAAGAAGAT GACATTTATG ATGATTCCCA AGAAGCTGAA GTTATCCAGT CTCTGCTGGA 6421 TGTTGTGGAT GAGGAAGCCC AGAATCTTTT AAACGAAAAT AATGCAGCAG GATACTCCTG 6481 TGGTCCAGGT ACATTAAAGA TGAATGGGAA GTTATCAGAA GAGAGAACAG AAGATACAGA 6541 CTGCGATGGT TCACCTTTAC CTGAGTATTT TACTGAGGCC ACCAAAATGA ATGGCTGTGA 6601 AGAATATTGT GAAGAAAAAG TAAAAAGTGA AAGCTTAATT CAGAAGCCAC AAGAAAAGAA 6661 GACTGATGAT GATGAAATAA CATGGGGAAA TGATGAGTTG CCAATAGAGA GAACAAACCA 6721 TGAAGATTCT GATAAAGATC ATTCCTTTCT GACAAACGAT GAGCTCGCTG TACTCCCTGT 6781 CGTCAAAGTG CTTCCCTCTG GTAAATACAC GGGTGCCAAC TTAAAATCAG TCATTCGAGT 6841 CCTGCGGGGT TTGCTAGATC AAGGAATTCC TTCTAAGGAG CTGGAGAATC TTCAAGAATT 6801 AAAACCTTTG GATCAGTGTC TAATTGGGCA AACTAAGGAA AACAGAAGGA AGAACAGATA 6961 TAAAAATATA CTTCCCTATG ATGCTACAAG AGTGCCTCTT GGAGATGAAG GTGGCTATAT 7021 CAATGCCAGC TTCATTAAGA TACCAGTTGG GAAAGAAGAG TTCGTTTACA TTGCCTGCCA 7081 AGGACCACTG CCTACAACTG TTGGAGACTT CTGGCAGATG ATTTGGGAGC AAAAATCCAC 7141 AGTGATAGCC ATGATGACTC AAGAAGTAGA AGGAGAAAAA ATCAAATGCC AGCGCTATTG 7201 GCCCAACATC CTAGGCAAAA CAACAATGGT CAGCAACAGA CTTCGACTGG CTCTTGTGAG 7261 AATGCAGCAG CTGAAGGGCT TTGTGGTGAG GGCAATGACC CTTGAAGATA TTCAGACCAG 7221 AGAGGTGCGC CATATTTCTC ATCTGAATTT CACTGCCTGG CCAGACCATG ATACACCTTC 7381 TCAACCAGAT GATCTGCTTA CTTTTATCTC CTACATGAGA CACATGCACA GATCAGGCCC 7441 AATCATTACG CACTGCAGTG CTGGCATTGG ACGTTCAGGG ACCCTGATTT GCATAGATGT 7501 GGTTCTGGGA TTAATCAGTC AGGATCTTGA TTTTGACATC TCTGATTTGG TGCGCTGCAT 7561 GAGACTACAA AGACACGGAA TGGTTCAGAC AGAGGATCAA TATATTTTCT GCTATCAAGT 7621 CATCCTTTAT GTCCTGACAC GTCTTCAAGC AGAAGAAGAG CAAAAACAGC AGCCTGAGGT 7681 TCTGAAGTGA CATGAAAAGA GCCTCTGGAT GCATTTCCAT TTCTCTCCTT AACCTCCAGC 7741 AGACTCCTGC TCTCTATCCA AAATAAGATC ACAGAGCAGC AAGTTCATAC AACATGCATG 7801 TTCTCCTCTA TCTTAGAGGG GTATTCTTCT TGAAAATAAA AAATATTGAA ATGCTGTATT 7861 TTTACAGCTA CTTTAACCTA TGATAATTAT TTACAAAATT TTAACACTAA CCAAACAATG 7821 CAGATCTTAG GGATGATTAA AGGCAGCATT TGATGATAGC AGACATTGTT ACAAGGACAT 7981 GGTGAGTCTA TTTTTAATGC ACCAATCTTG TTTATAGCAA AAATGTTTTC CAATATTTTA 8041 ATAAAGTAGT TATTTTATAG GGGATACTTG AAACCAGTAT TTAAGCTTTA AATGACAGTA 8101 ATATTGGCAT AGAAAAAAGT AGCAAATGTT TACTGTATCA ATTTCTAATG TTTACTATAT 8161 AGAATTTCCT GTAATATATT TATATACTTT TTCATGAAAA TGGAGTTATC AGTTATCTGT 8221 TTGTTACTGC ATCATCTGTT TGTAATCATT ATCTCACTTT GTAAATAAAA ACACACGTTA 8281 AAACATG GENEANK ID: NM_003326.1 VERSION NM_003336.1 GI:4507768 MSTPARRRLNRDFKRLQEDFPAGVSGAPSENNINVWNAVIFGPE GTPFGDGTFKLTIEFTEEYPNKPPTVRFVSKMFHPNVYADGSICLDILQNRWSPTYDV SSILTSIQSLLDEPNPNSPANSQAAQLYQENKREYEKRVSAIVEQSWRDC GENBANK ID: S40706.1 VERSION S40706.1 GI:252001 MAAESLPFSSDTVSWELEAWYEDLQEVLSSDENCGTYVSPPGNE SEESKIETTLDPASLAWLTEEEPEPAEVTSTSQSPHSPDSSQSSLAQEEEEEDQGRTR KRKQSGHSPARAGKQRNKEKEQENERKVAQLAEENERLKQEIERLTREVEATRRALID RMVNLHQA GENBANK ID: M96995.1 VERSION M96995.1 GI:181975 MEAIAKYDEKATADDELSFKRGDILKVLNEECDQNNYKAELNGK DGFIPKNYIEMKPHPWFFGKIPRAKAEENLSKQRHDGAFLIRESESAPGDFSLSVKFG NDVQWFKVLRDGAGKYFLWVVKFNSLNELVDYHRSTSVSRNQQIFLRDIEQVPQQPTY VQALFDFDPQEDGELGFRRGDFIHVMDNSDPNWWKGACNGQTGMFPRNYVTPVNRNV GENBANK ID: M21758.1 VERSION M21758.1 GI:183664 MAEKPKLHYFNARGRNESTRWLLAAAGVEFEEKFIKSAEDLDKL RNDGYLNEQQVPNVEIDGMKLVQTRAILNYIASKYNLYGKDIKERALIDMYIEGIADL GENILLLPVCPPEEKDAKLALIKEKIKNRYFPAEEKVLKSHGQDYLVGNKLSRADIHL VELLYYVEELDSSLISSEPLLKALKTRISNLPTVKKFLQPGSPRKPPNDEKSLEEARK IFRF GENBANK ID: U32944.1 VERSION U32944.1 GI:1209060 MCDRKAVIKNADMSEENQQDSVECATQALEKYNIEKDIAARIKK EFDKKYNPTWHCIVGRNFGSYVPMETKHFIYFYLGQVAILLFKSG GENBANK ID: NM_021141.2 VERSION NM_021141.2 GI:12406650 MVRSGNKAAVVLCNDVGFTMSNSIPGIESPFEQAKKVITMFVQR QVFAENKDEIALVLFGTDGTDNPLSGGDQYQNITVHRRLMLPDFDLLEDIESKIQPGS QQADFLDALIVSMDVIQHETIGKKFEKRHIEIFTDLSSRFSKSQLDIIIHSLKKCDIS LQFFLPFSLGKEDGSGDRGDGPFRLGGHGPSFPLKGITEQQKEGLEIVKMVMISLEGE DGLDEIYSFSESLRKLCVFKKIERHSIHWPCRLTIGSNLSIRIAAYKSILQERVKKTW TVVDAKTLKKEDIQKETVYCLNDDDETEVLKEDIIQGFRYQSDIVPFSKVDEEQMKYK SEGKCFSVLGFCKSSQVQRRFFMGNQVLKVFAARDDEAAAVALSSLINALDDLDMVAI VRYAYDKRANPQVGVAFPHIKMNYECLVYVQLPFNEDLRQYNFSSLKNSKKYAPTEAQ LNAVDALIDSNSLAKKDEKTDTLEDLFPTTKIPNPRFQRLRQCLLMRALHPREPLPPI QQHIWNNLNPPAEVTTKSQIPLSKIKTLEPLIEAKKKDQVTAQEIFQDNMEDGPTAKK LKTEQGGAMESVSSLAEQSVTSVGSVNPAENFRVLVKQKKASEEEASNQLINHIEQFL DTNETPYFNKSIDCIRAFREEAIKFSEEQRFNNFLKALQEKVEIKQLNHFNEIVVQDG ITLITKEEASGSSVTAEEAKKFLAPKDKPSGDTAAVFEEGGDVDDLLDMI GENBANK ID: NM_005053.1 VERSION NM_005053.1 GI:4826963 MAVTITLKTLQQQTFKIRNEPDETVKVLKEKIEAEKGRDAFPVA DQKLIYAGKILSDDVPIRDYRIDEKNFVVVNVTKTKAGQGTSAPPEASPTAAPESSTS FPPAPTSGMSHPPPAAREDKSPSEESAPTTSPESVSGSVPSSGSSGREEDAASTLVTG SEYETNLTEIMSMGYERERVVAALRASYNNPHRAVEYLLTGIPGSPEPEMGSVQESQV SEQPATEAAGENPLEFLRDQPQEQNNRQVIQQNPALLPALLQQLGQENPQLLQQISRH QEQFIQMLNEPPGELADISDVEGEVGAIGEEAPQNNYIQVTPQEKEAIERLKALGEPE SLVIQAYFACEKNENLAANFLLSQNFDDE GENBANK ID: Z23115.1 VERSION Z23115.1 GI:510900 MSQSNEELVVDFLSYKLSQEKGYSWSQFSDVEENETEAPEGTESE METPSAINGNPSWNLADSPAVNGATAHSSSLDAREVIPMAAVKQALREAGDEFELRYR RAFSDLTSQLHITPGTAYQSFEQVVNELFRDGVNWGRIVAFWSEGGALCVESVDKEMQ VLVSRIAAWMATYLNDHLETWIQENGGWDTFVELYGNNAAAESRKGQERFNRWFLTGN TVAGVVLLGSLFSRK GENBANK ID: AB020979.1 VERSION AB02D979.1 GI:6518501 MDEADRRLLRRCRLRLVEELQVDQLWDALLSSELFRPHNIEDIQ RAGSGSRRDQARQLIIDLETRGSQALPLFISCLEDTGQDMLASFLETNRQAAKLSKPT LENLTPVVLRPEIRKPEVLRPETPRPVDIGSGGFGDVEQKDHGFEVASTSTEDESPGS NPEPDATPFQEGLRTFDQLDAISSLPTPSDIFVSYSTFPGFVSWRDPKSGSWYVETLD DIFEQWAHSEDLQSLLLRVANAVSVKGIYKQNPGCFNFLRKKLFFKTS GENBANK ID: U21092.1 VERSION U21092.1 GI:726087 MESSKKNDSPGALQTNPPLKLHTDRSAGTPVFVPEQGGYKEKFV KTVEDKYKCEKCHLVLCSPKQTECGHRTCESCMAALLSSSSPKCTACQESIVKDKVFK DNCCKREILALQIYCRNESRGCAEQLTLGHLLVHLKNDCHFEELPCVRPDCKEKVLRK DLRDHVEKACKYREATCSNCKSQVPMIALQKHEDTDCPCVVVSCPHKCSVQTLLRSEL SAHLSECVNAPSTCSFKRYGCVFQGTNQQIKAHEASSAVQHVNLLKEWSNSLEKKVSL LQNESVEKNKSIQSLHNQICSFEIEIERQKEMLRNNESKILHLQRVIDSQAEKLKELD KEIRPFRQNMEEADSMKSSVESLQNRVTELESVDKSAGQVARNTGLLESQLSRHDQML SVHDIRLADMDLRFQVLETASYNGVLIWKIRDYKRRKQEAVMGKTLSLYSQPFYTGYF GYKMCARVYLNGDGMGKGTHLSLFFVIMRGEYDALLPWPFKQKVTLMLMDQGSSRRHL GDAFKPDPNSSSFKKPTGEMNIASGCPVFVAQTVLENGTYIKDDTIFIKVIVDTSDLP DP GENBANK ID: NM_001459.1 VERSION NM_001459.1 GI:4503750 MTVLAPAWSPTTYLLLLLLLSSGLSGTQDCSFQHSPISSDFAVK IRELSDYLLQDYPVTVASNLQDEELCGALWRLVLAQRWMERLKTVAGSKMQGLLERVN TEIHFVTKCAFQPPPSCLRFVQTNISRLLQETSEQLVALKPWITRQNFSRCLELQCQP DSSTLPPPNSPRPLEATAPTAPQPPLLLLLLLPVGLLLLAAAWCLHWQRTRRRTPRPG EQVPPYPSPQDLLLVEH GENBANK ID: X57500.1 VERSION M36089.1 GI:340396 MPEIRLRHVVSCSSQDSTHCAENLLKADTYRKWRAAKAGEKTIS VVLQLEKEEQIHSVDIGNDGSAFVEVLVGSSAG0AGEQDYEVLLVTSSFMSPSESRSG SNPNRVRMFGPDKLVRAAAEKRWDRVKIVCSQPYSKDSPFGLSFVRFHSPPDKDEAEA PSQKVTVTKLGQFRVKEEDESANSLRPGALFFSRINKTSPYTASDPAGPSYAAATLQA SSAASSASPVSRAIGSTSKPQESPKGKRKLDLNQEEKKTPSKPPAQLSPSVPKRPKLP APTRTPATAPVPARAQGAVTGKPRGEGTEPRRPRAGPEELGKILQGVVVVLSGFQNPF RSELRDKALELGAKYRPDWTRDSTHLICAFANTPKYSQVLGLGGRIVRKEWVLDCHRM RRRLPSRRYLMAGPGSSSEEDEASHSGGSGDEAPKLPQKQPQTKTKPTQAAGPSSPQK PPTPEETKAASPVLQEDIDIEGVQSEGQDNGAEDSGDTEDELRRVAEQKEHRLPPGQE ENGEDPYA0STDENTDSEEHQEPPDLPVPELPDFFQGKHFFLYGEFPGDERRKLIRYV TAFNGELEDYMSDRVQFVITAQEWDPSFEEALMDNPSLAFVRPRWIYSCNEKQKLLPH QLYGVVPQA GENBANK ID: BAA02962.1 DEFINITION HUMAN MRNA FOR RECA-LIKE PROTEIN HSRAD51, COMPLETE CDS. VERSION 013804.1 GI:397826 CDS 212..1231 /CODON_START=1 1 GAATTCCGGT AAGGAGAGTG CGGCCCTTCC CGAGGCGTGC AGCTGGGAAC TGCAACTCAT 61 CTGGGTTGTG CGCAGAAGGC TGGGGCAAGC GAGTAGAGAA GTGCACCGTA AGCCAGCGGG 121 CTTGGGCGCC GTCCGGCCGG GTCGCGTGCA GCCCCGCGGG GTGAAGTCGG AGCGCGGGGC 181 CTGCTGGAGA GAGGAGCGCT GCGACCGAGT AATGGCAATG CAGATGCAGC TTGAAGCGAA 241 TGCAGATACT TCAGTCGAAG AAGAAAGCTT TGGCCCACAA CCCATTTGAC GGTTAGAGCA 301 GTGTGGCATA AATGCCAACG ATGTGAAGAA ATTCGAAGAA GCTGGATTCC ATACTGTGGA 361 GGCTGTTGCC TATGCGCCAA ACAAGCAGCT AATAAATATT AAGGGAATTA GTGAAGCCAA 421 AGCTGATAAA ATTCTGGCTG AGGCAGCTAA ATTAGTTCCA ATGGGTTTCA CCACTGCAAC 481 TGAAPTCCAC CAAACGCGGT CAGAGATCAT ACAGATTACT ACTGGCTCCA AAGAGCTTGA 541 CAAACTACTT CAAGGTGGAA TTGAGACTGG ATCTATCACA GAAATGTTTG GAGAATTCCG 601 AACTGGGAAG ACCCAGATCT GTCATACGCT AGCTGTCACC TGCCAGCTTC CCATTGACCG 661 GGGTGGAGGT GAAGGAAACG CCATGTACAT TGACACTGAG GGTACCPTTA GGCCAGAACG 721 GCTGCTGGCA GTGGCTGAGA GGTATGCTCT CTCTGGCAGT GATGTCCTGG ATAATGTAGC 781 ATATGCTCGA GCGTTCAACA CAGACCACCA GACCCAGCTC CTTTATCAAG CATCAGCCAT 841 GATGGTAGAA TCTAGGTATG CACTGCTTAT TGTAGACAGT GCCACCGCCC TTTACAGAAC 901 AGACTACTGG GGTCGAGGTG AGCTTTCAGC CAGGCAGATG CACTTGGCCA GGTTTCTGCG 961 GATCCTTCTG CGACTCGCTG ATGAGTTTGG TGTAGCAGTG GTAATCACTA ATCAGGTGGT 1021 AGCTCAAGTG GATGGAGCAG CGATGTTTGC TGCTGATCCC AAAAAACCTA TTGGAGGAAA 1081 TATCATCGCC CATGCATCAA CAACCAGATT GTATCTGAGG AAAGGAAGAG GGGAAACCAG 1141 AATCTGCCAA ATCIACGACT CTCCCTGTCT TCCTGAAGCT GAAGCTATGT TCGCCATTAA 1201 ICCAGAIGGA GTGGGAGATG CCAAAGACTG AATCATTGGG TTTTTCCTCT GTTAAAAACC 1261 TTAAGTGCTG CAGCCTAATG AGAGTGCACT GCTCCCTGGG GTTCTCTACA GGCCTCTTCC 1321 TGTTGTGACT GCCAGGATAA AGCTTCCGGG AAAACAGCTA TTATATCAGC TTTTCTGATG 1381 GTATAAACAG GAGACAGGTC AGTAGTCACA AACTGATCTA AAATGGTTTA TTCCTTCTGT 1441 AGTGTATTAA TCTCTGTGTG TTIICTTTGG TTTTGGAGGA GGGTATGAAG TATCTTTGAC 1501 ATGGTGCCTT AGGAATGACT TGGGTTTAAC AAGCTGTCTA CTGGACAATC TTATGTTTCC 1561 AAGAGAACTA AAGCTGGAGA GACCTGACCC TTCTCTCACT TCTAAATTAA TGGTAAAATA 1621 AAAGTCCTCA GCTATGTAGC AAAGG GENBANK ID: B56529 AGGAGGTGCAGGAGAACAGAAGTGTGCCCTGTGCTCTTCTGAGCAGAGAAGCACCATGAG CTGGGGCAGGCAAACCCCACTGGGGCTGGCATGGCTCGCTGGGGCTGGCACGTGGAGGGA AGTGCTGCCTCCCCAGGCCTCTGCTTTAATGATCAGCTTAGTCACTGGTGTGACTGTGCC CTGGGCTATTGCCTGAGGTGAAACCTTTACCTGCTCCCTGGTCTATCTTGGTAGAATTGA TCTATTTCAAAGGTATACAGCTAAGCAGATTCTTATTTCTGAGAATACCACCTGTGTGGC ACCTCCTTTCCAGCTCCTCAGGGAATGTGAGACATGTGAGGAGCTGCCACACTCCTTGCC AGTAGTCACAGGAAAGGGTGGTTAACAAGTTAAAGTAACCAAGAGGAATATGTGTGTTGA GTCAGCTGATGGCGTTTGCAAGTGGAATGTCCTTCTTACC GENBANK ID: CAA59230.1 DEFINITION H. SAPIENS MRNA FOR DNA LIGASE III. VERSION X84740.1 GI:860962 CDS 334..3102 /CODON_START=1 1 CCACGCGTCC GGCAGCCTGT ATGAGCAAGT GCCGAGGCCT ACGGTGAGCG CCGGAGCCGG 61 AGAGGCAGCT ATATGTCTTT GGCTTTCAAG ATCTTCTTTC CACAAACCCT CCGTGCACTC 121 AGCCGAAAAG AACTGTGCCT ATTCCGAAAA CATCACTGGC GTGATGTAAG ACAATTCAGC 181 CAGTGGTCAG AAACAGATCT GCTTCATGGA CATCCCCTCT TCCTGAGAAG AAAGCCTGTT 241 CTATCATTCC AGGGAAGCCA TCTAAGATCA CGTGCCACCT ACCTTGTTTT CTTGCCAGGG 301 TTGCATGTGG GACTCTGCAG TGGCCCCTGT GAGATGGCTG AGCAACGGTT CTGTGTGGAC 361 TATGCCAAGC GTGGCACAGC TGGCTGCAAA AAATGCAAGG AAAAGATTGT GAAGGGCGTA 421 TGCCGAATTG GCAAAGTGGT GCCCAATCCC TTCTCAGAGT CTGGGGGTGA TATGAAAGAG 481 TGGTACCACA TTAAATGCAT GTTTGAGAAA CTAGAGCGGG CCCGGGCCAC CACAAAAAAA 541 ATCGAGGACC TCACAGAGCT GGAAGGCTGG GAAGAGCTGG AAGATAATGA GAAGGAACAG 601 ATAACCCAGC ACATTGCAGA TCTGTCTTCT AAGGCAGCAG GTACACCAAA GAAGAAAGCT 661 GTTGTCCAGG CTAAGTTGAC AACCACTGGC CAGGTGACTT CTCCAGTGAA AGGCGCCTCA 721 TTTGTCACCA GTACCAATCC CCGGAAATTT TCTGGCTTTT CAGCCAAGCC CAACAACTCT 781 GGGGAAGCCC CCTCGAGCCC CACCCCTAAG AGAAGTCTGT GTTCAAGCAA ATGTGACCCC 841 AGGCATAAGG ACTGTCTGCT ACGGGAGTTT CGAAAGTTAT GCGCCATGGT GGCCGATAAT 901 CCTAGCTACA ACACGAAGAC CCAGATCATC CAGGACTTCC TTCGGAAAGG CTCAGCAGGA 961 GATGGTTTCC ACGGTGATGT GTACCTAACA GTGAAGCTGC TGCTGCCAGG AGTCATTAAG 1021 ACTGTTTACA ACTTGAACGA TAAGCAGATT GTGAAGCTTT TCAGTCGCAT TTTTAACTGC 1081 AACCCAGATG ATATGGCACG GGACCTAGAG CAGGGTGACG TGTCAGAGAC AATCAGAGTC 1141 TTCTTTGAGC AGAGCAAGTC TTTCCCCCCA GCTGCCAAGA GCCTCCTTAC CATCCAGGAA 1201 GTGGATGAGT TCCTTCTGCG GCTGTCCAAG CTCACCAAGG AGGATGACCA GCAACAGGCC 1261 CTACAGGACA TTGCCTCCAG GTGTACAGCC AATGACCTTA AATGCATCAT CAGGTTGATC 1321 AAACATCATC TGAAGATGAA CTCAGGTGCA AAACATGTGT TAGACGCCGT TGACCCCAAT 1381 GCCTATGAAG CCTTCAAAGC CTCGCCCAAC CTGCAGGATG TGGTGGAGCG GGTCCTTCAC 1441 AACGCGCAGG AGGTGGAGAA GGAGCCGGGC CAGAGACCAG CTCTGAGCGT CCAGGCCTCG 1501 CTGATGACAC CTGTGCAGCC CATGTTGGCG GAGGCCTGCA AGTCCGTTGA GTATGCAATG 1561 AAGAAATGTC CCAATGGCAT GTTCTCTGAG ATCAAGTACG ATGGAGAGCG AGTCCAGGTG 1621 CATAAGAATG GAGACCACTT CAGCTACTTC AGCCGCAGTC TCAAGCCCGT CCTTCCTCAC 1681 AAGGTGGCCC ACTTTAAGGA CTACATTCCC CAGGCTTPTC CTGGGGGCCA CAGCATGATC 1741 TTGGATTCTG AAGTGCTTCT GATTGACAAC AAGACAGGCA AACCACTGCC CTTTGGGACT 1801 CTGGGAGTAC ACAAGAAAGC AGCCTTCCAG GATGCTAATG TCTGCCTGTT TGTTTTTGAT 1861 TGTATCTACT TTAATGATGT CAGCTTGATG GACAGACCTC TGTGTGAGCG GCGGAAGTTT 1921 CTTCATGACA ACATGGTTGA AATTCCAAAC CGGATCATGT TCTCAGAAAT GAAGCGAGTC 1981 ACAAAAGCTT TGGACTTGGC TGACATGATA ACCCGGGTGA TCCAGGAGGG ATTGGAGGGG 2041 CTGGTGCTGA AGGATGTGAA GGGTACATAT GAGGCTGGGA AGCGGCACTG GCTGAAAGTG 2101 AAGAAAGACT ATTTGAACGA GGGGGCCATG GCCGACACAG CTGACCTGGT GGTCCTTGGA 2161 GCCTTCTATG GGCAAGGGAG CAAAGGCGGC ATGATGTCAA TCTTCCTCAT GGGCTGCTAC 2221 GACCCTGGCA GCCAGAAGTG GTGCACAGTC ACCAAGTGTG CAGGAGGCCA TGATGATGCC 2281 ACGCTTGCCC GCCTGCAGAA TGAACTAGAC ATGGTGAAGA TCAGCAAGGA CCCCAGCAAA 2341 ATACCCAGCT GGTTGAAGGT CAACAAGATC TACTATGCTG ACTTCATCGT CCCAGACCCA 2401 AAGAAAGCTG CCGTGTGGGA GATCACAGGG GCTGAATTCT CCAAATCGGA GGCTCATACA 2461 GCTGACGGGA TCTCCATCCG ATTCCCTCGC TGCACCCGAA TCCGAGATGA TAAGGACTGG 2521 AAATCTGCCA CTAACCTTCC CCAACTCAAG GAACTGTACC AGTTGTCCAA GGAGAAGGCA 2581 GACTTCACTG TAGTGGCTGG AGATGAGGGG AGCTCCACTA CAGGGGGTAG CAGTGAAGAG 2641 AATAAGGGTC CCTCAGGGTC TGCTGTGTCC CGCAAGGCCC CCAGCAAGCC CTCAGCCAGT 2701 ACCAAGAAAG CAGAAGGGAA GCTGAGTAAC TCCAACAGCA AAGATGGCAA CATGCAGACT 2761 GCAAAGCCTT CCGCTATGAA GGTGGGGGAG AAGCTGGCCA CAAAGTCTTC TCCAGTGAAA 2821 GTAGGGGAGA AGCGGAAAGC TGCTGATGAG ACGCTGTGCC AAACAAAGGT ATTGCTGGAC 2881 ATCTTCACTG GGGTGCGGCT TTACTTGCCA CCCTCCACAC CAGACTTCAG CCGTCTCAGA 2941 CGCTACTTTG TGGCATTCGA CGGGGACCTG GTACAGGAAT TTGATATGAC TTCAGCCACG 3001 CACGTGCTGG GTAGCAGGGA CAAGAACCCT GCGGCCCAGC AGGTCTCCCC AGAGTGGATT 3061 TGGGCATGTA TCCGGAAACG GAGACTGGTA GCTCCCTGCT AGGTTTGCTG TCTTCCCTCT 3121 CCCTCAGGCC ATACTCTCCT TTACCATACT ATTGGACTGG ACTCAGGCTG GAGGCAGATA 3181 GACACAGTAT AGGGGGAATG GGCTTGCTTC TCCCAAACCC ACCAGTTCTC CACTGTCTCT 3241 TCTGGACCAG GAATTAGTTG CTGTGGGTGC CACAGCTGAA GTCAGTTTGT CTTGCTGGTT 3301 TAAATAGATC TTTCAGAGCT GGGTGCTGGG TTTGCCATCT TTTTGTTTTC TTTGAAAAGC 3361 AGCTTAGTTA CCCTTTTTAT AAATAAAATA TCTTGCAGTT AAAAAAAAAA AAAAAAAAAA 3421 AA GENBANK ID: D26155.1 VERSION D26155.1 GI:505086 MSTPTDPGAMPHPGPSPGPGPSPGPILGFSPGPGPSPGSVESMM GESPGPPSVSHPMPTNGSTDFPQEGMHQMHKPIDGIHDKGIVEDTHCGSNKGTGMRPP HPGNGPPQSPMDQHSQGMSPHPSPLGAPEHVSSPMSGGGPTPPQYSPPSQPGALIPGD PQAMSQPNRGPSPFSPVQLHQLRAQILAYKMLARGQFLPETLQLAVQGKRTLPGLQQQ QQQQQGQQQQQQQQQQQQQPQQQPQQQPQTQQQQQPALVNYNRPSGPGPELSGPSTPQ KLPVPAPGGRPSPAPPAAAQPFAAAVPGPSVPQFAPGQPSFVLQLQQKQSRISPIQKP QGLDPVEILQEREYRLQARIAHRIQELENLFGSLPPDLRTKATVELKALRLLNFQRQL REEVVACNRRDTTLETALNSKAYKRSKRQTLREARMTEKLEKQQKIEQERKRRQKHQE YLNSILQHAKDFKEYNRSVAGKIQKLSKAVATWHANTEREQKKETERIEKERMRRLMA EDEESYRKLIDQKKDRRLAYLLQQTGEYVANLTNLVWEHKQAQAAKEKKKRRRRKKKA EENAEGGESALGPDGEPIDSSSQNSDLPVKVTNTETGKVLFGPEAPKASQLDANLEMN PGYEVAPRSDSSESDSDYEEEDEEEESSRQETEEKILLDPNSEEVSEKDAKQIIETAK QDVDDEYSMQYSARGSQSYYTVAHAISERVEKQSALLINGTLKHYQLQGLEWMVSLYN NNLNGILADEMGLGKTIQTIALITYLMEHKRLNGPYLIIVFLSTLSNNTYEFDKWAPS VVKISYKGTPAMRRSLVPQLRSGKFNVLLTTYEYIIKDKHILAKIRWKYMIVDEGNRM KNHHCKLTQVLNTEYVAPRRILLTGTPLQNKLPELWALLNELLPTIFKSCSTFEQWFN APFAMTGERVDLNEEETILIIRRLEKVLRPFLLRRLKKEVESQLPEKVEYVIKCDMSA LQKILYRHMQAKGILLTDGSEKDKKGKGGAKTLMNTIMQLRKICNHPYNFQHIESSFA EHLGYSNGVINGAELYRASGKFELLDRILPKLRATNHRVLLFCQMTSLNTIMEDYFAF RNFLYLRLDGTTKSEDRAALLKKFNEPGSQYFIFLLSTRAGGLGLNLQAAHTVVIFDS DWNPHQDLQAQDRARRIGQQNEVRVLRLCTVNSVEEKILAAAKYKLNV0QKVIQAGMF DQKSSSHERRAFLQAILEHEEENEEEDEVPDDETLNQMIARREEEFDLFMRMDMDRRR EDARNFKRKPRLNESDELPSWIIKDDAEVERLTCEEEEEKIFGRGSRQRRDVDYSDAL TEKQWLRAIEDGNLEEMEEEVRLKKRKRRRNVDKDFAKEDVEKAKHRRGRPPAEKLSP NPPKLTKQMNAIIDTVINYKDSSGRQLSEVFIQLPSRKELPEYYELIRKPVDFKKIKE RIRNHRYRSLGDLEKDVMLLCHNAQTFNLEGSQIYEDSIVLQSVFKSARQKIAKEEES EDESNEEEEEEDEEESESEAKSVKKIKLNKKDDKCRDKGKGKKRPNRGKAKFVVSDF DSDEEQDEREQSEGSGTDDE GENBANK ID: M62829J VERSION M62829.1 GI:182262 MAAAKAEMQLMSPLQISDPFGSFPHSPTMDNYPKLEEMMLLSNG APQFLGAAGAFBGSGSNSSSSSSGGGGGGGGGSNSSSSSSTENPQADTGEQPYEHLTA ESFFDISLNNEKVLVETSYFSQTTRLPFITYTGRFSLEPAPNSGNTLWPEFLFSLVSG LVSNTNPPASSSSAPSFAASSASASQSPPLSCAVBSNDSSPIYSAAFTFPTPNTDIFP EPQSQAFPGSAGTALQYPPPAYPAAKGGFQVFNIPDYLFPQQQGDLGLCTPDQKPFQG LESRTQQPSLTPLSTIKAFATQSGSQDLKALNTSYQSQLIKPSRMRKYFNRPSKTPPH ERPYACPVESCDRRFSRSDELTRHIRIHTGQKPFQCRICMRNFSRSDHLTTHIRTHTG EKPFACDICGRKFARSDERKRETKIHLRQKDKKADKSVVASRATSSLSSYFSPVATSY PSPVTTSYPSPATTSYPSPVPTSFSSPGSSTYPSPVHSGFPSPSVATTYSSVPPAFPA QVSSFPSSAVTNSFSASTGLSDNTATFSFRTIEIC GENBANK ID: U10421.1 VERSION U10421.1 GI:500756 MDNARMNSFLEYPILSSGGSGTCSARAYFSDBRITTFQSCAVSA NSCGGDDRFLVGRGVQIGSPHHHHHHHHHHPQPATYQTSGNLGVSYSHESCQPSYGSQ NFSAPYSPYALNQEADVSGGYPQCAPAVYSGNLSSPMVQHHHHHQGYAGGAVGSPQYI HHSYGQEHQSLALATYNNSLSPLHASHQEACRSPASETSSPAQTFDWNKVKRNFPKTG KVGEYGYLGQFNAVRTNFTTKQLTELEKEFHFNKYLTRARRVEIAASLQLNETQVKIW FQNRRMKQKKREKEGLLPISPATPPGNDEKAEESSEKSSSSPCVPSPGSSTSDTLTTS H GENBANK ID: U08015.1 VERSION U08015.1 GI:500631 MPSTSFPVPSKFPLGPAAAVFGRGETLGPAPRAGGTMKSAEEEH YGYASSNVSPALPLPTAHSTLPAPCHNLQTSTPGIIPPADHPSGYGAALDGGPAGYFL SSGHTRPDGAFALESPRIEITSCLGLYHNNNQFFHDVEVEDVLPSSKRSPSTATLSLF SLEAYRDPSCLSPASSLSSRSCNSEASSYESNYSYPYASPQTSPWQSPCVSPKTTDPE EGFPRGLGACTLLGSPQHSFSTSPRASVTEESWLGARSSRPASPCNKRKYSLNGRQPP YSPHHSPTPSPHGSPRVSVTDDSWLGNTTQYTSSAIVAAINALTTDSSLDLGDGVPVK SRKTTLEQPPSVALKVEPVGEDLGSPPPPADFAPEDYSSFQEIRKGGFCDQYLAVPQN PYQWAKPKPLSPTSYNSPTLPALDWQLPSHSGPYELRIEVQPKSHHRAHYETEGSRGA VKASAGGHPIVQLHGYLENEPLMLQLFIGTADDRLLRPHAFYQVHRITGKTVSTTSHE AILSNTKVLEIPLLPENSMRAVIDCAGILKLRNSDIELRKGETDICRKNTRVRLVFRV HVPQPSGRTLSLQVASNPIECSQRSAQELPLVEKQSTDSYPVVGGKKMVLSGHNFLQD SKVIFVEKAPDGHHVWENEAKTDRDLCKPNSLVVEIPPFRNQRITSPVHVSFYVCNGK RKRSQYQRFTYLPANGNAIFLTVSREHERVGCFF GENBANK ID: U08191.1 VERSION U08191.1 GI:476273 MTRVNAGRKGSLAALYDLAVLKKKVKEKEEKKKKKIRIIKSEAE DLAEPLSSTEGVAPLSQAPSPLAIPAIKEEPLEDLKPCLGINEISSSFFSLLLEILLL ESQASLFNLEERVLDWQSSPASSLNSWFSAAPNWAELVLPALQYLAGESRAVPSSFSP FVEFKEKTQQWKLLGQSQDNEKELAALFQLNLETKDQAFCKQENEGSSDATTPVPRVR TDYVVRPSTGEEKRVFQEQERYRYSQPHKAFTFRMHGFESVVGPVKGVFDKETSLNKA REHSLLRSDRFAYVTILSLVRDAAARLPNGEGTRAEICELLKDSQFLAFDVTSTQVNT VVSGALDRLHYEKDPCVKYDIGRKLWIYLER0RSEEEFERIHQAQAAAAKARKALQQK PKPPSKVKSSSKESSIKVLSSGPSEQSQMSLSDSSNPFTPVTPVTPTTPALPAIPISP PPVSAVNKSGFSTVSEPAKSSSGVLLVSSFTNPHLGTMLSPASSQTAPSSQAAARVVS HSGSAGLSQVRVVAQPSLPAVPQQSGGPAQTLPQMPAGPQIRVFATATQTKVVPQTVM ATVPVKAQTTAATVQRPGPGQTGLTVTSLPATASPVSKPATSSPGTSAPSASTAAVIQ NVTGQNIIKQVAITGQLGVKPQTGNSIPLTATNFRIQGKDVLRLFPSSITTDAKGQTV LRITPDNMATLAKSQVTTVKLTQDLFGTGGNTTGKGISATLHVTSNFVNAADSPAKAS SASAPSSTPTGTTVVKVTPDLKPTEASSSAFRLNPALGVSVADQKGKSTVASSEARPA ATIRIVQGLGVNPPKAGQTITVATHAKQGASVASGSGTVHTSAVSLPSNNAAVSKTVA VASGAASTPISISTGAPTVRQVPVSTTVVSTSQACKLPTRITVPLSVISQPMKGKSVV TAPIIKGNLGANLSGLGRNIILTTMPAGTKLIAGNKPVSFLTAQQLQQLQQQGQATQV RIQTVPASISNREQLLAPPKQSPLLL GENBANK ID: M55654 VERSION M55654.1 GI:339491 MDQNNSLPPYAQGLASPQGAMTPGIPIFSPMMPYGTGLTPQPIQ NTNSLSILEEQQRQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQAVAAAAV QQSTSQQATQGTSGQAPQLFHSQILTTAPLPGTTPLYPSPMTPNTPITPATPASESSG IVPQLQNIVSTVNLGCKLDLKTIALRARNAEYNPKRFAAVINRIREPRTTALIFSSGK MVCTGAKSEEQSRLAARKYARVVQKLGEPAKELDFKIQNNVGSCDVKFPIRLEGLVLT HQQFSSYEPELFPGLIYRMIKPRIVLLIFVSQKVVLTGAKVRAEIYEAFENIYPILKG FRKTT GENBANK ID: NM_005568.1 VERSION NM_005568.1 GI:5031866 MVHCAGCKRPILDRFLLNVLDRAWHVKCVQCCECKCNLTEKCFS REGKLYCKNDFFRCFGTKCAGCRQGISPSDLVRRARSKVFHLNCFTCNNCNKQLSTGE ELYIIDENKFVCKEDYLSNSSVAKENSLRSATTGSDPSLSPDSQDPSQDDAKDSESAN VSDKEAGSNEN0DQNLGAERRGPGTTIKAKQLETLKAAFAATPKPTREIREQLAQETG LNMRVIQVNFQNRRSKERRMKQLSALAGHAFERSPRRMRPLVDRLEPGELIPNGFFSF YGDYQSEYYGPGGNYDFFPQGPPSSQAQTPVDLPFVPSSGPSGTPLGGLEHPLPGHHP SSEAQRFTDILAHPPGDSPSPEPSLPGPLHSNSAEVFGPSPPFSSLSVNGGASYGNHL SHPPEMNEAAVW GENBANK ID: X69111.1 VERSION X69111.1 GI:32294 MKALSPVRGCYEAVCCLSERSLAIARGRGKGPAAEEPLSLLDDM NHCYSRLRELVPGVPRGTQLSQVEILQRVIDYILDLQVVLAEPAPGPPDGPHLPIQTA ELAPELVISNDKRSFCH GENBANK ID: NP_000507.1 VERSION NP_000507.1 GI:4504047 1 MGCLGNSETE DQRNEEKAQR EANKKIEKQL QKDKQVYRAT HRLLLLGAGE SGKSTIVKQM 61 RILHVNGFNG EGGEEDPQAA RSNSDGEKAT KVQDIKNNLK EAIETIVAAM SNLVPPVELA 121 NPENQFRVDY ILSVMNVPDF DWPPEFYEHA KALWEDEGVR ACYERSNEYQ LIDCAQYFLD 181 KIDVIEQADY VPSDQDLLRC RVLTSGIFET KFQVDKVNFH NFDVGGQRDE RRKWIQCFND 241 VTAIIFVVAS SSYNMVIRED NQTNRLQEAL NLFKSIWNNR WLRTISVILF LNKQDLLAEK 301 VLAGKSKIED YFPEFARYTT PEDATPEPGE DPRVTRAKYF IRDEFLEIST ASGDGRHYCY 361 PHFTCAVDTE NIRRVFNDCR DIIQRMHLRQ YELL GENBANK ID: AAA40889.1 VERSION AAA40889.1 GI:203357 1 MEQYTANSNS STEQIVVQAG QIQQQQQGGV TAVQLQTEAQ VASASGQGVG TLQVVQGQPL 61 NVQVSGGQLI TSTGQPINVQ AVPGGQGQTI MQVPVSGTQG LQQIQLVPPG QIQIQGGQAV 121 QVQGQQGQTQ QIIIQQPQTA VTAGQTQTQQ QIAVQGQQVA QTAEGQTIVY QPVNADGTIL 181 QQGMITIPAA SLAGAQIVQT GANTNTTSSG QGTVTVTLPV AGNVVNSGGM VMMVPGAGSV 241 PAIQRIPLPG AEMLEEEPLY VNAKQYHRIL KRRQARAKLE AEGKIPKERR KYLHESRHRH 301 AMARKRGEGG RFFSPKEKDS PHMQDPNQAD EEANTQIIRV S GENBANK ID: B53771 VERSION B53771 GI:2136296 1 MAWALKLPLA DEVIESGLVQ DFDASLSGIG QELGAGAYSM SDVLALPIFK QEESSLPPDN 61 ENKILPFQYV LCAATSPAVK LHDETLTYLN QGQSYEIRML DNRELGELPE INGKLVKSIF 121 RVVFHDRRLQ YTEHQQLEGW RWNRPGDRIL DIDIPMSVGI IDPRANPTQL NTVEFLWDPA 181 KRTSVFIQVH CISTEFTMRK HGGEKGVPFR VQIDTFEENE NGEYTEHLHS ASCQIKVFKP 241 KGADRKQKTD REKNEKRTPH EKEKYQPSYE TTILTECSPN PEITYVNNSP SPGFNSSHSS 301 FSLGEGNGSP NHQPEPPPPV TDNLLPTTTP QEAQQWLHRN RFSTFTRLFT NFSGADLLKL 361 TRDDVIQICG PADGIRLFNA LKGRNVRPRL TIYVCQESLQ LEEQQQQQQQ QQQKHEDGDS 421 NGTFFVYHAI YLEELTAVEL TEKIAQLFSI SPCQISQIYK QGPTGIHVLI SDEMIQNFQE 481 EACFILDTMK QETNQSYHII LK GENBANK ID: M92299.1 VERSION M92299.2. GI:184292 MSSYFVNSFSGRYPNGPDYQLLNYGSGSSLSGSYRDPAANHTGS YGYNYNGMDLSVNRSSASSSHEGAVGESSRAFPAPAQEPRFRQAASSCSLSSPESLPC TNGDSHGAKPSASSPSDQATSASSSANFTEIDEASASSEPEEAASQLSSPSLARAQPE PMATSTAAPEGQTPQIFPWMRKLHISHDNTCPDGKRARTAYTRYQTLELEKEFHFNRY LTRRRRIEIAHALCLSERQIKIWFQNRRMKWKKDNKLKSMSLATAGSAEQP GENBANK ID: M68891.1 VERSION M68891.1 GI:182995 MEVAPEQPGWMAHPAVLNANDPDSERPGLAHNYMEPAHVLPPDE VDVFFNHLDSQGNPYYANPAEARAAVSYSPAHARLTGSQNCRPHLLHSPGLPWLDGGK AALSAAAAHHHNPWTVSPFSKTPLHPSAAGGPGGPLSVYPGAGGGSGGGSGSSVASLT PTAAHSGSHLFGFPPTPPKEVSPDPSTTGAASPASSSAGGSAARGEDKDGVKYQVSLT ESMKMESGSPLRPGLATMGTQPATHHPIPTYPSYVPAAAHDYSSGLFHPGGFLGGPAS SFTPKQRSKARSCSEGRECVNCGATATPLWRRDGTGHYLCNACGLYHKNNGQNRPLIK PKRRLSAARRAGTCCANCQTTTTTLWRRNANGDPVCNACGLYYKLHNVNRPLTMKKEG IQTRNRKMSNKSKKSKKGAECFEELSKCMQEKSSPFSAAALAGHMAPVGHLPPFSHSG HILPTPTPIHPSSSLSFGNPEPSSMVTANG GENBANK ID: XM_028606.2 VERSION XM_028606.2 GI:15304625 MDEMTAVVKIEKGVGGNNGGNGNGGGAFSQARSSSTGSSSSTGG GGQESQPSHLALLAATCSRIESPNENSNNSQGPSQSGGTGELDLTATQLSQGPMAGRS SLPPLGLPLPQRNRVAAVPMAAMAVSLPRIAQSLVGSMLCAAPNLQNQQVLTGLPGVM PNIQYQVIPQFQTVDGQQLQFAATGAQVQQDGSGQIQIIPGANQQIITNRGSGGNIIA AMPNLLQQAVPLQGLANNVLSGQTQYVTNVPVALNGNITLLPVNSVSAATLTPSSQAV TISSSGSQESGSQPVTSGTTISSASLVSSQASSSSFFTNANSYSTTTTTSNNGIMNFT TSGSSGTNSQGQIPQRVSGLQGSDALNIQQNQTSGGSLQAGQQKEGEQNQQTQQQQIL IQPQLVQGGQALQALQAAPLSGQTFTTQAISQETLQNLQLQAVPNSGPIIIRTPTVGP NGQVSNQTLQLQNLQVQNPQAQTITLAPMQGVSLGQTSSSNTTLTPIASAASIPAGTV TVNAAQLSSMPGLQTINLSALGTSGIQVHPIQGLPLAIANAPGDHGAQLGLHGAGGDG IHDDTAGGEEGENSPDAQPQAGRRTRREACTCPYCKDSEGRGSGDPGKKKQHICHIQG CGKVYGKTSHLRANLRWHTGERPFNCTWSYCGKRFTRSDELQRHKRTNTGEKKFACPE CPKRFNRSDHLSKHIKTHQNKKGGPGVALSVGTLPLDSGAGSEGSGTATPSALITTNM VAMEAICPEGIARLANSGINVMQVADLQSINISGNGF GENBANK ID: NP_009077.1 DEFINITION HOMO SAPIENS ZINC FINGER PROTEIN 161 (ZNF161), MRNA. VERSION NB_007146.1 GI:6005967 CDS 42..1592 /CODON_START=4 1 AGCGGGGGGA GTGGGGAGGA GGGGGGTCGG CCGCCGCAGC CATGGAGGCC AACTGGACCG 61 CGTTCCTGTT CCAGGCCCAT GAAGCTTCCC ATCACCAACA GCAGGCAGCA CAGAACAGCT 121 TGCTGCCCCT CCTGAGCTCT GCCGTGGAGC CCCCTGATCA GAAACCATTG CTTCCAATAC 181 CAATAACTCA GAAACCTCAG GGTGCACCAG AAACATTAAA GGATGCCATT GGGATTAAAA 241 AAGAAAAACC CAAAACTTCA TTTGTGTGCA CTTACTGCAG TAAAGCTTTC AGGGACAGCT 301 ATCACCTGAG GCGCCACGAA TCGTGCCACA CAGGGATCAA GTTGGTGTCC CGGCCAAAGA 361 AAACCCCCAC CACGGTGGTT CCCCTTATCT CTACCATCGC TGGGGACAGC AGCCGAACTT 421 CGTTGGTCTC GACCATTGCA GGCATCTTGT CAACAGTCAC TACATCTTCC TCGGGCACCA 481 ACCCCAGTAG CAGTGCCAGC ACCACAGCTA TGCCAGTGAC CCAGTCTGTC AAGAAACCCA 541 GTAAGCCTGT CAAGAAGAAC CATGCTTGTG AGATGTGTGG GAAGGCCTTC CGAGATGTGT 601 ACCATCTCAA TCGACACAAG CTCTCCCATT CAGATGAGAA ACCCTTTGAG TGTCCTATTT 661 GTAATCAGCG CTTCAAGAGG AAGGACCGGA TGACTTACCA TGTGAGGTCT CATGAAGGAG 721 GCATCACCAA ACCCTATACT TGCAGTGTTT GTGGGAAAGG CTTCTCAAGG CGTGACCACT 781 TAAGCTGTCA TGTAAAACAT GTCCATTCAA CAGAAAGACC CTTCAAATGC CAAACGTGCA 841 CTGCTGCCTT TGCCACCAAA GACAGACTGC GGACACACAT GGTGCGCCAT GAAGGCAAGG 901 TATCATGTAA CATCTGTGGG AAGCTCCTGA GTGCAGCATA CATCACCAGC CACTTAAAGA 961 CTCATGGGCA GAGCCAAAGT ATCAACTGTA ATACATGTAA ACAAGGCATC AGTAAAACAT 1021 GCATGAGTGA AGAGACCACT AACCAAAAGC AGCAGCAGCA GCAGCAGCAG CAACAACAAC 1081 AACAACAACA TGTGACAAGC TGGCCAGGGA AGCAAGTAGA AACACTCAGA CTGTGGGAAG 1141 AAGCTGTTAA AGCAAGGAAG AAAGAAGCTG CTAACCTGTG CCAAACCTCC ACGGCTGCTA 1201 CGACACCTGT GACTCTCACT ACTCCATTCA GTATAACATC CTCTGPGTCG TCTGAGACTA 1261 TGTCAAACCC AGTCACAGTG GCAGCTGCAA TGAGCATGAG AAGTCCACPA AATGTTTCAA 1321 GTGCAGTTAA CATAACCAGC CCAATGAACA TAGGGCATCC TGTAACTATA ACCAGTCCAT 1381 TATCCATGAC CTCTCCTTTA ACACTCACTA CCCCAGTCAA CCTCCCCACC CCCGTCACTG 1441 CCCCAGTGAA TATAGCACAC CCTGTCACCA TCACATCTCC AATGAATCTA CCCACACCTA 1501 TGACATTAGC CGCCCCTCTC AATATAGCAA TGAGACCTGT AGACAGCATG CCTTTCTTGC 1561 CCCAAGCTTT GCCTACATCA CCGCCTTGGT AAACAGTATT ATAAAATCAA AATATGGGTA 1621 AAAGTAAATA TTTACCAGCA ACTTAACTTT TAGTTGATTA AAGCAAAAAG TAAACCATGA 1681 AATTGGGAGA TTTTATTACA TTAGTTAATA AGAGTGTGGT AGCATTTTTC TCCAATTTGG 1741 CTGGGATTAT TCAAAGTAGG GTGTGTATGT AACTTATCAC TGGACCACTT TAGTTTAATC 1801 AGAAATTCCT TTTAGCTGAC AACATTGCTT AAACAGGATA GTAGTTGGCA AGATGAAATG 1861 CCAGAATTAA AACCAATCAT AAGTAGAACC CACTTCAAAA TAAAAAAACA GCATTACTAT 1921 TTCTAATCCC AAGGAATCAC TTTATTGTAA ACACTAGCAG AACTCTTCTC CCTATACAAG 1981 GTGGATGGCT GATTTTAACC TGAAATTTTA AATCCACAGA TTGAGAGCTA GTGTAGAATT 2041 GTCTGTGTTT ATTGTTTTTA TGAGTAAATA CATGCATTGT CATAATAAAA TGCATTTCAG 2101 AGAATATGCA TTTTACCTTT GGGAATATGT TAATTTCAGG CAGCATTCCC TATGGGAAAG 2161 GTGATACCAG CTCTGATATG CAAAGCATAT GATAATTTAT CATTCTAACT TCAACGTATA 2221 ATAGGGATTG TGACCTGATA TTTGGAGATG TAAATATTGC TCAGCATATT AATCCCGATG 2281 GAATATAGCA TTGTAGTTGA CTTTTT GENBANK ID: AAA36598.1 DEFINITION HUMAN STEM CELL PROTEIN (SCL) MRNA, COMPLETE CDS. VERSION M29038.1 GI:337958 CDS 81..725 /CODON_START=1 1 AGTCAGAGTC ACTTTCTGTA AATGGTACTT AGGTAGGCGC GTCCGCCTCG GTTACAGCGG 61 AGCTGCCCGG CGACGGCCGC ATGGTGCAGC TGAGTCCTCC CGCGCTGGCT GCCCCCGCCG 121 CCCCCGGCCG CGCGCTGCTC TACAGCCTCA GCCAGCCGCT GGCCTCTCTC GGCAGCGGGT 181 TCTTTGGGGA GCCGGATGCC TTCCCTATGT TCACCACCAA CAATCGAGTG AAGAGGAGAC 241 CTTCCCCCTA TGAGATGGAG ATTACTGATG GTCCCCACAC CAAAGTTGTG CGGCGTATCT 301 TCACCAACAG CCGGGAGCGA TGGCGGCAGC AGAATGTGAA CGGGGCCTTT GCCGAGCTCC 361 GCAAGCTGAT CCCCACACAT CCCCCGGACA AGAAGCTCAG CAAGAATGAG ATCCTCCGCC 421 TGGCCATGAA GTATATCAAC TTCTTGGCCA AGCTGCTCAA TGACCAGGAG GAGGAGGGCA 481 CCCAGCGGGC CAAGACTGGC AAGGACCCTG TGGTGGGGGC TGGTGGGGGT GGAGGTGGGG 541 GAGGGGGCGG CGCGCCCCCA GATGACCTCC TGCAAGACGT GCTTTCCCCC AACTCCAGCT 601 GCGGCAGCTC CCTGGATGGG GCAGCCAGCC CGGACAGCTA CACGGAGGAG CCCGCGCCCA 661 AGCACACGGC CCGCAGCCTC CATCCTGCCA TGCTGCCTGC CGCCGATGGA GCCGGCCCTC 721 GGTGATGGGT CTGGGCCACC AGGATCAGCC AGGAGGGCGT TCTTAGGCTG CTGGGATGGT 781 GGGCTTCAGG GCAGGTGGGG TGAGAATTGG GCGGCTCTGA AGCAAGGCGG TGGACTTGAA 841 CTTTCCTGGA TGTCTGAACT TTGGGAAGCC TTTACTGACC CTGGGGCTGG CTTTTCTGTT 901 TCCTGTACCA GTAGGAGAIC AGAAAAATGG AGCAAAGTGG TAGGTACTTT TTGTGAAGAC 961 GGCACGGTCT TCCCTCTTCC CTCAGTCCCA AATCCTTCCC AAGTAAGAGG CTGGAGTTGT 1021 CACTGCTTTT GGCCTGGAGT TTGGGATCCC TGTCTTTCCT AAGACCTGGG GTTGTCAGCT 1081 CTCATCTGAG GCATCCAGCA GTCTCTGCCT TGCCTTTAGC CCCTCCCAAG CTGGCTGGGG 1141 TGGCCTGTGT GGCCACTTCT GTCCATATTT ATAGGTACCC AATAGCTGCC CATTTCGTGA 1201 GCCCCATCTT CACCCAGGCC TATGTTGATC CATCCAGCTT GCCAGATGCT GCAGAGTCAC 1261 AAGCCTCGAG GTGCCTTCTT CAGGGCCTGG TTGAAGAAGA TGATCAGTGG ACAGTCTGCT 1321 CTAGATGAGC TGGGCCGGAG GGTCAGGAAA CCCAGTCGCC CTTACTTCTT GCCCTGGGGA 1381 TCAAAGTTCT GCTTTCTCCC CAATGAGACT TGCCTTCCTA AGCCTGTGGC TGTGGAGACC 1441 ATGTCTGCAG CCCTGAGAAA GCCCTGTCGG GCTTTGTGTG AAGGCAGAGA AAGGGACAAT 1501 GATACTAGAG TGATATGGAG CAAGAGATAT TTTGGGCATG TGGGCTTCAA CTCCTCGACA 1561 TCACTGTTCA TGCTGGCGAG TGAATGCCAG TGTGCTGATG GGCGTACGCT GGTGCTGAGT 1621 AGATGCGCAG CCCCATCTGT GCATTCTCCT GGATGCTTAG AGGGATTTCT TTGCTGTAAG 1681 ATGTCTGTTT GCTGATGGTC TGGTCTATGT TCCGAATTGA GCACAAAACC TGTCCTATGA 1741 ATGCTTTGCA TTTGGAATTT TTGCTTGACT TCAGTTATTG GTGGAATCTT TAGCGCTCAA 1801 TAGGACCAGG ATCCAGCCTC ACTTCTAGGG TATGGGAAAT CCAATCAGAG ACCAGGCCCT 1861 GGCTAAGACC CAAACATATG CACATTCACT TAGCAGAACC TTAAACACCC CTCAGTTGTG 1921 CAGCTTTTGG TCATCAAGGG TGCGTCTGGG AGGTTGGTTT AATGCAATAG AAGTGCTCCC 1981 CTCTGAAAGT TGTACATGAA ATTTTTGTAA ATCACATCCT TATCCTTCAT CTTTTAAAGA 2041 AATAACCACT GCAAGTCCTT TTGTAAAGTG AAGAATCCTT TTGTAGAATG AACCACTGCC 2101 CCTTCATTGA TTTCCTGTGT CAATCCAGAT GGTGGGATGT GGTTTTCTTA AGGTGAGGCC 2161 TGTCTGTGAC CTGCATCTAA GCCCATGGGA CAAATTGCAC AGAAGTCCTG TATGTCTGTC 2221 ATTGTACCCT TAAGTCACCC TAGCCCTCTC CCTCTAGGCT CTGCCTTCGA GGTCAGAGGA 2281 GAGATAGCCT GTGGCCCTGT CCTGCCATGC AAGAACTCAT CACTGTGGCT GTCTGGAAAG 2341 CCCCCCCTTA TAGTTTGGGC TTCAGCCTAG TGGCTTGTCC TGACCATGAT GGGGCCCTAA 2401 TTCAGCCATG TACAGACAGA GAATATGTCT GCTCCTTTCC CCTTCCTTTT AAGTAAGGTC 2461 CAATTCTCGA GCTTGGGGCA ACATTGTTCA CCTTTGTAGC ACTCAGGCTC TCCATTCAAT 2521 TTCAGGCTCC CCAGATCATG TTTTGGTGAA AATTAGGGTT GGTTCCTTTC CAACGTTTGG 2581 AAGATCCTGT GAGGAGCCCC ATCTGTCTAA AGATAGAGTC ATTGCTGTAG GATCTAAGGC 2641 TGTTTGCTTC ACCGTGGATT CGCTTGAGTT AGGAATGAGA ACTACCGACA GTATGGATGG 2701 GTGGATGGGT TTTATGAGAT GGATCACATA TTTTATTAAG AACTCAAACT TCTGGCTCCC 2761 TCTTCTTTCA GACTTGCCAT GTGACTCTGG CTTGGCCTAT CTCCTAGGGC TATGGTGTGG 2821 ACTGAATGGG ATCATGAAAG TAGACAGTTT TGAGAACGTA AAGAACTTTT TCTTTTCCCT 2881 CAATCTCAAT CCTGCAGTGG GGTTTCGCAG CCTGAGTCCA CGACCTAGGC AGTAGGCCGG 2941 TGTGCCTGAC TGCCCAGCAT TTGGGTAATT TAGATTGTAA ACCGCTTTGG CCTGAGTTAT 3001 TGAGATTGTC CTCATTTCTC CAGATTATCT ATTTGTGTGT GTGTGTGTGT GTGTGTGAGA 3061 GACGGTGTCT TGTTCTGTCA CTCAGGCTGG AGTACAGTGG TGCCATCATT GCTGTCTGCA 3121 GCCTTGAACT CTGGGCTCAA GCAATCCTCT CACCTCAGCC TCCCGAGTAG GGAGGACCAC 3181 AGGTGTGAGC CACCACACCT GGCTAATTTT TACTTTTTTT TTTTTTTGGT AGAGATGGAG 3241 TCTTGCTATA TTGCCCAGGC TGGTCTTGAA GTCCTGGCTT CAGGCAATTC TCCTGCCTTT 3301 GCCTCCAGAA GCACTGGGAT CACAGGTGTC AGCCATTGCA CCCAGCCCAG ATTGTCTTAA 3361 TTTCTATCTT GTTCCAAGGC CAGGGACAGT AATAAGAATG GAAAAGAGAT ATGGGAACAC 3421 TGGCAGACTG TGTAAAATGT AATGCAACTA CCCAAAACAA GCCTGGTAGG AAAGGGCAAG 3481 TCTTTAGGTC TTTGTAAGAA CTAAAGAAGA TCTGTAATTT TTATTTTCAC CCTCTGTACC 3541 CCATGACCTT ATCCTTCCTC TCCTTCCTTG TTACCCATGA AAAACTGGCA ACATTCCAAG 3601 AATAGCATCT GTACAAAGGG GAAAGAACAT AAAGGTAAAA CAAAACAAAA CAACATTTTG 3661 AGAACRAAGA TGACCATAAC CACTGAAGGG AATCACATCT TTTAAGACAA ATTCATATTC 3721 TTTTATTTGT TATGGCAGAT GACAAGATGG TACAACCTTT ATTCTTTTCC AAAATAAAAC 3781 AAAGGGCACA GCATCTGTAG TCAGCCGACA ACTCTTTCGG CCTTTTGGGG GTGGGTCTGG 3641 CCGTACTTGT GATTTCGATG GTACGTGACC CTCTGCTGAA GACTTGCCCC CTGCCCGTGT 3901 ACATAGTGCA TTGTTTCTGT GGGCGGGCCC AGCACTTTCC GTCAACGTTG TACTGTATGT 3961 GATGAATTGC GTTGGTCTCT GCATTTTTCT GCAGAAGAGG AGTAACCGCT CCAGGTACCT 4021 TGACCTTTGT ACAGGCCAGA GGCCAACACT GTGGGTGTGT GACTCTTTAG CAAAAAAAAC 4081 CCATGTGGTG ATGATGTGTC TATATATGTG AGGATGTATC GGGAAGATTT CTAAATAAAA 4141 GTTTTACAAA GGG GENBANK ID: NP_006168 DEFINITION HOMO SAPIENS NEURAL RETINA LEUCINE ZIPPER (NRL), MRNA. VERSION NM_006177.1 GI:5453801 CDS 118..831 /CODON_START=1 1 CCAGGCCCTG CTCCATGGAG CCTTCAGTCT CCTGGGAAGC TGTGCCTGTC TGGCTCTGGC 61 ACTGACCACA TCCTCTCGGC CATTTCTGAA GTGCACTCCT CCCAGCCCAG CTCCAGAATG 121 GCCCTGCCCC CCAGCCCCCT GGCCATGGAA TATGTCAATG ACTTTGACTT GATGAAGTTT 181 GAGGTAAAGC GGGAACCCTC TGAGGGCCGA CCTGGCCCCC CTACAGCCTC ACTGGGCTCC 241 ACACCTTACA GCTCAGTGCC TCCTTCACCC ACCTTCAGTG AACCAGGCAT GGTGGGGGCA 301 ACCGAGCGCA CCCGGCCAGG CCTGGAGGAG CTGTACTGGC TGGCTACCCT GGAGGAGGAG 361 CTGGGGGCTG GGGAGGCATT GGGGCTGAGT CCTGAAGAGG CCATGGAGCT GCTGCAGGGT 421 CAGGGCCCAG TCCCTGTTGA TGGGGCCGAT GGCTACTACC CAGGGAGCCC AGAGGAGACA 481 GGAGCCCAGC ACGTCCAGCT GGCAGAGCGG TTTTCCGACG CGGCGCTGGT CTCGATGTCT 541 GTGCGGGAGC TAAACCGGCA GCTGCGGGGC TGCGGGCGCG ACGAGGCGCT GCGGCTGAAG 601 CAGAGGGGGC GCACGCTGAA GAACCGCGGC TACGCGCAGG CCTGTCGCTC CAAGCGGCTG 661 CAGGAGGGGG GCGGGCTGGA GGCCGAGCGC GCCCGCCTGG CCGCCCAGCT GGACGCGCTG 721 CGGGCCGAGG TGGCCCGCCT GGCCCGGGAG CGCGATCTCT ACAAGGCTCG CTGTGACCGG 781 CTAACCTCGA GCGGCCCCGG GTCCGGGGAC CGCTGCCACG TCTTCCTCTG AGCCGTTCAG 841 AGCACCTTGT GGTGTAGTGG GGGCTGGGTG GGGTGGCTCC GCCCAGGAGG CGGCTGCACG 901 GTTCTCTGCA TCGTTACCAG AGCGCCTTCT GGTCCTAGCC ACGCCCTGTA TGACCGCGCA 961 AATATCCCCA AAGCTTTTGG GTCCTCAAGT CATGCCCGAA TTTAGATGCT GGTCATTTTC 1021 TGGAGAGGGG TCCCCTCCCC TTACGAACAC AAAAACCCAG CCCACATGAC TAGCACGCTG 1081 AGCTCTGCAG GGACCAGTGC CAGGCACTGG GGGGTGGAAG TGTGGTGACA CAGTGAATGG 1141 GAGGTGGAGG AGGGTTGCAG CTCCCACCTC AGTTTAGTTT TTAATTCAGG GTTTTCAACC 1201 TGTAACACAT TAAAGCTGTA ATTAGCAATG AGGCTGTATT TTCATTCTGA AGCTTGTAAC 1261 CTCCCCATTT TAGCACTACA GAATTTTCAA GATTTCAATA TCCAACAACT AGATAGATTA 1321 GGACCTCTAT CGGAGATGCT TTTTCCCTGC CCAACCCTGT GGCCTTCAGG GCTCAGAGCA 1381 GCAAAGGCCT GAAGAGTGAG CTCTGGGGGT TGTTGGTGTG GGTTGGGAGA GAGCTGTGTG 1441 CAGAAGTCTG GAAACCTGGG TCCTAGTCCC AGCTCTTCCA TGGGATCCCC CTGTCACCCT 1501 GAGCAAATCA GTTGCTTCCT GGACTTGTGT TACTTCATCT AATTCTCATG TGGATTGGAC 1561 GACTTCTCCT CCCTTTCCAG TTCTGGCATC TCCCCAGTAT GGAAGTCCCG GTGGTCTCCC 1621 CAAGAAGTCC CCAAGACAAT CTCGCCAAAG GCACCTCCTA TCCTCCTGCA GTTTCCCACC 1681 TGCAGCCTAG GCAGGGCATG CACAGCCCAG GCGAGGAAGC CTGCCTTCTC TGTGAGCACA 1741 TACGTGGGTC CTCCGCAGCT CCCTCCAGCC TGTCTGGGCC TCCAGACCTG CACAGGGTGC 1801 TCCTGCCACC TCCCACCTCT CTGAGGGCTG AGGTGAGACT TCTCCTGGGA TGACAATTTG 1861 CTGAGAGAGT GCAGCTTTTC TGAATTAAAC TTGAAGTCCA CGCAGAATTC TAATGCAATA 1921 AGCTAAATGT T GENBANK ID: AAA58399.1 VERSION M95809.1 GI:179568 /GENE=“BTF2” CDS 55..1701 /CODON_START=1 1 AGTTAGTTAC TTCCTGTCTA GAGTTGTAGC TTCCACCTGC ACCTTCTAGC CACCATGCCA 61 ACCTCATCTG AAGAAGTTTT GCTGATTGTA AAGAAAGTGC GTCAAAAGAA GCAGGATGCA 121 GCTCTGTACC TCATGGCAGA AAGAATTGCT TGGGCACCTG AAGGCAAAGA TAGATTTACA 181 ATCAGCCATA TGTATGCAGA TATTAAATGC CAGAAAATTA GTCCAGAAGG AAAAGCTAAA 241 ATTCAGCTTC AGCTGGTCCT ACATGCAGGG GACACAACTA ACTTCCATTT TTCCAATGAA 301 ACCACACCAG TGAAAGAGCG AGATGCAGTA AAAGACCTTC TTCAGCAGCT GCTGCCCAAA 361 TTCAAGAGGA AAGCAAATAA AGAACTGGAA GAGAAGAACA GAATGCTGCA AGAAGATCCT 421 GTTTTGTTTC AGCTTTATAA AGACCTTGTT GTGAGTCAAG TGATCAGTGC TGAGGAATTC 481 TGGGCCAATC GTTTAAATGT GAATGCAACA GATAGTTCTT CCACATCCAA TCATAAGCAG 541 GATGTTGGCA TTTCTGCTGC ATTTCTGGCT GATGTCCGGC CCCAAACTGA TGGCTGTAAC 601 GGTCTAAGAT ATAATTTAAC TTCTGATATC ATTGAGTCCA TATTTAGGAC CTATCCAGCA 661 GTAAAAATGA AATATGCAGA AAATGTTCCC CACAACATGA CAGAGAAGGA ATTCTGGACA 721 CGTTTTTTCC AGTCCCATTA TTTTCACAGG GATCGGCTGA ATACAGGGTC AAAGGATCTC 781 TTTGCAGAAT GTGCCAAAAT AGATGAAAAA GGCCTAAAAA CAATGGTTTC ATTAGGAGTG 841 AAAAACCCAC TACTAGATTT AACAGCTTTG GAAGATAAAC CATTAGATGA GGGCTATGGC 901 ATTTCCTCTG TGCCATCTGC TTCCAATTCT AAATCCATAA AAGAGAATAG TAATGCTGCC 961 ATCATCAAGA GATTTAACCA TCACAGTGCC ATGGTCCTGG CAGCTGGACT CAGAAAACAA 1021 GAAGCACAAA ATGAACAAAC TAGTGAGCCC AGCAACATGG ATGGAAATTC CGGAGATGCA 1081 GACTGCTTTC AGCCAGCAGT CAAAAGGGCG AAATTACAAG AGTCCATTGA ATATGAAGAC 1141 TTGGGGAAAA ATAATTCTGT AAAAACGATT GCACTAAACC TCAAGAAGTC AGATAGGTAT 1201 TATCATGGTC CAACTCCAAT CCAGTCACTA CAGTATGCAA CAAGTCAGGA CATTATTAAT 1261 TCTTTTCAAA GTATTAGACA AGAAATGGAA GGTTATACAC CCAAGTTAAC TCAGGTTCTC 1321 TCAAGTAGTG CTGCCAGTAG TACCATCACA GCACTGTCAC CTGGAGGGGC ACTTATGCAG 1381 GGAGGAACAC AGCAAGCCAT AAACCAGATG GTGCCAAATG ATATTCAATC TGAATTGAAA 1441 CACTTATATG TAGCTGTTGG AGAACTTCTA CGACATTTCT GGTCCTGCTT TCCTGTTAAT 1501 ACGCCATTCC TAGAAGAAAA GGTAGTGAAA ATGAAAAGTA ATTTGGAACG ATTCCAAGTT 1561 ACGAAGCTCT GTCCATTCCA AGAAAAGATT CGGAGACACT ATTTAAGCAC AAATTTGGTA 1621 AGTCACATAG AAGAGATGCT CCAGACAGCC TACAACAAGC TCCACACATG GCAGTCACGG 1681 CGTCTGATGA AGAAAACGTG AGGTGGCCAT GATGCTTACA GGTTTTGTGA GATTGAGAGA 1741 ACTATGACCT GCAGCAACTC TGGAAACCTG GCCTGACAGA CAAGCAGATG ACCTCACAGG 1801 AGTGATAAGA AACATCTGCT CCACGCCAAC TCCCAGAGCT GATGCTATTG TACTTGCACA 1861 TTGGAGACTG AAAGGAAAGA AGGGACTAAA TGC GENBANK ID: AAA65605.1 DEFINITION HUMAN OCTANER BINDING TRANSCRIPTION FACTOR 1 (OTF1) MRNA, VERSION L20433.1 GI:418015 CDS 235..1497 /CODON_START=1 1 GCGGGGCTAG AGCTGTCGGA GAAGCGGGAC CGCGAGGCCG GCGCGCGGCG CTCTGCGCGG 61 TCAGAGGGAG CGCCTGGCAG CAGCAGGAGC AGCAGCAGCA GCCCGCGGCG GGGCCGCCGC 121 CAGCCGCCGC GACCGCCGCG GCTGCAGCCT CCGAAGGGAG GCCGGGTGAG CCGGCGTACG 181 CACTTTCCCG CGGACTTTCG GAGTGTTTGT GGATATACAT GCCAAGCCGC CACGATGATG 241 TCCATGAACA GCAAGCAGCC TCACTTTGCC ATGCATCCCA CCCTCCCTGA GCACAAGTAC 301 CCGTCGCTGC ACTCCAGCTC CGAGGCCATC CGGCGGGCCT GCCTGCCCAC GCCGCCGCTG 361 CAGAGCAACC TCTTCGCCAG CCTGGACGAG ACGCTGCTGG CGCGGGCCGA GGCGCTGGCG 421 GCCGTGGACA TCGCCGTGTC CCAGGGCAAG AGCCATCCTT TCAAGCCGGA CGCCACGTAC 481 CACACGATGA ACAGCGTGCC GTGCACGTCC ACTTCCACGG TGCCTCTGGC GCACCACCAC 541 CACCACCACC ACCACCACCA GGCGCTCGAA CCCGGCGATC TGCTGGACCA CATCTCCTCG 601 CCGTCGCTCG CGCTCATGGC CGGCGCGGGC GGCGCGGGCG CGGCGGCCGG CGGCGGCGGC 661 GCCCACGACG GCCCGGGGGG CGGTGGCGGC CCGGGCGGCG GCGGCGGCCC GGGCGGCGGC 721 GGCCCCGGGG GAGGCCGCGC TGGCGGCCCG GGGGGCGGCG GCGGCGGCCC GGGCGGCGGG 781 CTCCTGGGCG GCTCCGCGCA CCCTCACCCG CATATGCACA GCCTGGGCCA CCTGTCGCAC 841 CCCGCGGCCG CCGCCGCCAT GAACATGCCG TCCGGGCTGC CGCACCCCGG GCTGGTGGCG 901 GCGGCGGCGC ACCACGGCGC GGCAGCGGCA GCGGCGGCGG CGTCGGCCGG GCAGGTGGCA 961 GCGGCATCGG CGGCGGCGGC CGTCGTGGCC GCAGCGGGCC TGGCGTCCAT CTGCGACTCG 1021 GACACGGACC CGCGCCAGCT CCAGGCCTTC GCGGAGCGCT TCAAGCAGCG GCGCATCAAG 1081 CTGGGCGTGA CGCAGGCCGA CGTGGGCTCG GCGCTGGCCA ACCTCAAGAT CCCGGGCGTG 1141 CGCTCACTCA GCCAGAGCAC CATCTGCAGG TTCGAGTCGC TCACGCTCTC GCACAACAAC 1201 ATGATCGCGC TCAAGCCCAT CCTGCAGGCG TGGCTCCAGG AGGCCGAGGG CCCCCAGCGC 1261 GAGAAAATGA ACAAGCCTGA GCTCTTCAAC GGCGGCGAGA AGAAGCGCAA GCGGACTTCC 1321 ATCGCCGCGC CCGAGAAGCG CTCCCTCGAG GCCTACTTCG CCGTGCAGCC CCGGCCCTCG 1381 TCCGAGAAGA TCGCCGCCAT CGCCGAGAAA CTGGACCTCA AAAAGAACGT GGTGCGGGTG 1441 TGGTTTTGCA ACCAGAGACA GAAGCAGAAG CGGATGAAAT TCTCTGCCAC TTACTGAGGG 1501 GGCTGGGAGG TGTCGGGCGG GACAGAATGG GGAGCTGAGG AGGCATTTTT GGGGGGCTTT 1561 CCTCTGCTTG CCTCCCCTCG GATTTGGAGT GTCCGTTATC CTGCCTGCAT TTGGGGAGTC 1621 CCTTCTCGCT CTCTTTCCTC CACCCATTCT CTGATTTTCC TGCCTTTGCT GTCCCCTAGC 1681 CTTGAGGACT GGGGTGCTGG GTGTGGGGAT TGGAGTATAG GGTAGGGGAG AAGGGGGGGA 1741 GCATTCGGGG GAGTGGGGAG TGGGGGGAAG GAAAGCGGAG ACCGGACCAG GGGTTTTAAG 1801 GAGCAGGATG GTTCTGGGGT TTGGGTGGGG GGAGACGCGG GAAGGGTAGG AAAATGGACT 1861 GTTTCTGACC AGAGACACTT ACCTAAATAT CCTGGGGACC AAGGAACTAT GTACAAAAAC 1921 AAACCTACCA ACCACCAAAA ACTAGACAAA TAAAGACAAA CTAAAACAAA ACAGAACAAA 1981 AGCAAAGGAA AATGCTTTAG AAATTTTAAC TCCGGGGAGC CATAATCTGC AACTTCATTT 2041 TCCCCCATAG AAGAGAAAAA AGACCACCAC CATTATTACG ACCTCCCCAA CCCTACACGC 2101 ACGAACTGAG TCGAAAAACG AAAACCAAAC GAGCGAGAAG TTGAAGTTCT GGGTATCAAA 2161 GCTAGTTGTT CTGTCTGCGT GTTTAATTTT TCCCTCTCTC ACCTCCACCC CATCCATATC 2221 CTCTTTATTT CCTCCGTTCC AATGAGAGGC CTATGGCTGC TCTCCAATCC CGGGAAGTGA 2281 GTGGGAGCAC AGCTGAAAAG AGAGGGTCAG GGGGAGGCTG GCTGCTTGCT TAGGTGGAAT 2341 CCAACTTTTC CCGTGGCCCT GCCTATACTC TGGTGGCCTG GTCCTGTTGG GGTGGGGGTC 2401 TTTGGAGAGA AGGGCATAGT CTTTGAGCTA CTAAAAAGCA GAATTCCGGA GCTTCGAGAT 2461 ATCTTATTCT AGGAAAATGA AACAATTTTA ACAACAGTTT TTTTTCCTCT TATGTCGAAG 2521 ATCTAGTTTT AGACAATTTC AAAATAAGCT TTTCCCACTC ATAGAACTTT AACTTGCCCT 2581 TTCAGTTTTA TCTTTTTTTT AGAGAGAGGT TTAAACTACT GATTTTTCCT GTTGATTCAA 2641 ATAGACTAAT GGGGTGAAAG TTATTAGGAG AGATACTGTC TCCTGTTTTC TCCACTGAAC 2701 GAGACTCATC TTGCTCTTCT AGGTCCCGTT TCTTCCTCTC TTGGAGGACA TGAAATTATA 2761 GAAATGTTGA GAAGTTCCTG CTTTCTTTTG CGGTAGGACT TGGCTGTGAG AAAATCACCT 2821 AAATCCCAGA AAAGAGGAAG ACAGATTTAA AGTGCCCCCA CCCCCATTTG TTTCAAAGAG 2881 GTCTGCATGT TGGGCGAAAA CAGAACAACT GTGTTTCCTT TTACTTGTTC TTATTATTCA 2941 AGAGTCATTT ATTACAGGGG ATAAATGTTG GGTAGCAAGA ACTTTAATTT GCACTACCAG 3001 TCTCCCAAAT AGAAAATCAT GTATAGTATT TCATAGTAAT AATCAGGTAC CTTACAAGCT 3061 GCTGGTGGAT TTTAAAAAAT TAAGATAGTT GAAGGTGGTT AGGTAAAATG CCTGCTTTGT 3121 GTACAAGATA CTCTTTGGAT CTCTCGTAGA GATGGTTTGT TACCATCCTT TAATCATAAC 3181 TAAAACATTG AAAACAGAAC AAATGAGAAA AGAAAAAAAA CCTGCCGATT AACAAGACTG 3241 AAATCATGCA TGATCTGAAA GGTGTGGAAA GAAACACAAT TAGGTCTCAC TCTGGTTAGG 3301 CATTATTTAT TTAATTATGT TGTATATCAT TGTTTGCAGG GCAAACATTC TATGCATTTG 3361 AAACTGAGCA CTAAACTGGG CTAGCTTTCT GGTAGACCGT TTTGTGGCTA GTGCGATTTC 3421 ACAGTCTACT GCCTGTTTCC ACTGAAAACA TTTTTGTCAT ATTCTTGTAT TCAAAGAAAA 3481 CAGGAAAAAA GTTATTGTAA ATATTTTATT TAATGCACAC ATTCACACAG TGGTAACAGA 3541 CTGCCAGTGT TCATCCTGAA ATGTCTCACG GATTGATCTA CCTGTCTATG TATGTCTGCT 3601 GAGCTTTCTC CTTGGTTATG TTTTTTCTCT TTTACCTTTC TCCTCCCTTA CTTCTATCAG 3661 AACCAATTCT ATGCGCCAAA TACAACAGGG GGATGTGTCC CAGTACACTT ACAAAATAAA 3721 ACATAACTGA AAGAAGAGCA GTTTTATGAT TTGGGTGCGT TTTTGTGTTT ATACTGGGCC 3781 AGGTCCTGGT AGAACCTTTC AACAAACAAC CAAACAAAAA AAAA GENBANK ID: AAA61146.1 DEFINITION HUMAN TRANSCRIPTION FACTOR (E2A) MRNA, COMPLETE CDS. VERSION M31523.1 GI:339477 CDS 31..1995 /CODON_START=1 1 GCCTGAGGTG CCCGCCCTGG CCCCAGGAGA ATGAACCAGC CGCAGAGGAT GGCGCCTGTG 61 GGCACAGACA AGGAGCTCAG TGACCTCCTG GACTTCAGCA TGATGTTCCC GCTGCCTGTC 121 ACCAACGGGA AGGGCCGGCC CGCCTCCCTG GCCGGGGCGC AGTTCGGAGG TTCAGGTCTT 181 GAGGACCGGC CCAGCTCAGG CTCCTGGGGC AGCGGCGACC AGAGCAGCTC CTCCTTTGAC 241 CCCAGCCGGA CCTTCAGCGA GGGCACCCAC TTCACTGAGT CGCACAGCAG CCTCTCTTCA 301 TCCACATTCC TGGGACCGGG ACTCGGAGGC AAGAGCGGTG AGCGGGGCGC CTATGCCTCC 361 TTCGGGAGAG ACGCAGGCGT GGGCGGCCTG ACTCAGGCTG GCTTCCTGTC AGGCGAGCTG 421 GCCCTCAACA GCCCCGGGCC CCTGTCCCCT TCGGGCATGA AGGGGACCTC CCAGTACTAC 481 CCCTCCTACT CCGGCAGCTC CCGGCGGAGA GCGGCAGACG GCACCCTAGA CACCCAGCCC 541 AAGAAGGTCC GGAAGGTCCC GCCGGGTCTT CCATCCTCGG TGTACCCACC CAGCTCAGGT 601 GAGGACTACG GCAGGGATGC CACCGCCTAC CCGTCCGCCA AGACCGCCAG CAGCACCTAT 661 CCCGCCCCCT TCTACGTGGC AGATGGCAGC CTGCACCCCT CAGCCGAGCT CTGGAGTCCC 721 CCGGGCCAGG CGGGCTTCGG GCCCATGCTG GGTGGGGGCT CATCCCCGCT GCCCCTCCCG 781 CCCGGTAGCG GCCCGGTGGG CAGCAGTGGA AGCAGCAGCA CGTTTGGTGG CCTGCACCAG 841 CACGAGCGTA TGGGCTACCA GCTGCATGGA GCAGAGGTGA ACGGTGGGCT CCCATCTGCA 901 TCCTCCTTCT CCTCAGCCCC CGGAGGCACG TACGGCGGCG TCTCCAGCCA CACGCCGCCT 961 GTCAGCGGGG CCGACAGCCT CCTGGGCTCC CGAGGGACCA CAGCTGGCAG CTCCGGGGAT 1021 GCCCTCGGCA AAGCACTGGC CTCGATCTAC TCCCCGGATC ACTCAAGCAA TAACTTCTCG 1081 TCCAGCCCTT CTACCCCCGT GGGCTCCCCC CAGGGCCTGG CAGGAACGTC ACAGTGGCCT 1141 CGAGCAGGAG CCCCCGGTGC CTTATCGCCC AGCTACGACG GGGGTCTCCA CGGCCTGCAG 1201 AGTAAGATAG AAGACCACCT GGACGAGGCC ATCCACGTGC TCCGCAGCCA CGCCGTGGGC 1261 ACAGCCGGCG ACATGCACAC GCTGCTGCCT GGCCACGGGG CGCTGGCCTC AGGTTTCACC 1321 GGCCCCATGT CGCTGGGTGG GCGGCACGCA GGCCTGGTTG GAGGCAGCCA CCCCGAGGAC 1381 GGCCTCGCAG GCAGCACCAG CCTCATGCAC AACCACGCGG CCCTCCCCAG CCAGCCAGGC 1441 ACCCTCCCTG ACCTGTCTCG GCCTCCCGAC TCCTACAGTG GGCTAGGGCG AGCAGGTGCC 1501 ACGGCGGCCG CCAGCGAGAT CAAGCGGGAG GAGAAGGAGG ACGAGGAGAA CACGTCAGCG 1561 GCTGACCACT CGGAGGAGGA GAAGAAGGAG CTGAAGGCCC CCCGGGCCCG GACCAGCCCA 1621 GACGAGGACG AGGACGACCT TCTCCCCCCA GAGCAGAAGG CCGAGCGGGA GAAGGAGCGC 1681 CGGGTGGCCA ATAACGCCCG GGAGCGGCTG CGGGTCCGTG ACATCAACGA GGCCTTTAAG 1741 GAGCTGGGGC GCATGTGCCA ACTGCACCTC AACAGCGAGA AGCCCCAGAC CAAACTGCTC 1801 ATCCTGCACC AGGCTGTCTC GGTCATCCTG AACTTGGAGC AGCAAGTGCG AGAGCGGAAC 1861 CTGAATCCCA AAGCAGCCTG TTTGAAACGG CGAGAAGAGG AAAAGGTGTC AGGTGTGGTT 1921 GGAGACCCCC AGATGGTGCT TTCAGCTCCC CACCCAGGCC TGAGCGAAGC CCACAACCCC 1981 GCCGGCCACA TGTGAAAGGT ATGCCTCCGT GGGACGAGCC ACCCGCTTTC AGCCCTGTGC 2041 TCTGGCCCCA GAAGCCGGAC TCGAGACCCC GGGCTTCATC CACATCCACA CCTCACACAC 2101 CTGTTGTCAG CATCGAGCCA ACACCAACCT GACAAGGTTC GGAGTGATGG GGGCGGCCAA 2161 GGTGACACTG GGTCCAGGAG CTCCCTGGGG CCCTGGCCTA CCACTCACTG GCCTCGCTCC 2221 CCCTGTCCCC GAATCTCAGC CACCGTGTCA CTCTGTGACC TGTCCCATGG ATCCTGAAAC 2281 TGCATCTTGG CCCTGTTGCC TGGGCTGACA GGAGCATTTT TTTTTTTTCC AGTAAACAAA 2341 ACCTGAAAGC AAGCAACAAA ACATACACTT TGTCAGAGAA GAAAAAAATG CCTTAACTAT 2401 AAAAAGCGGA GAAATGGAAA CATATCACTC AAGGGGGATG CTGTGGAAAC CTGGCTTATT 2461 CTTCTAAAGC CACCAGCAAA TTGTGCCTAA GCGAAATATT TTTTTTAAGG AAAATAAAAA 2521 CATTAGTTAC AAGATTTTTT TTTTCTTAAG GTAGATGAAA ATTAGCAAGG ATGCTGCCTT 2581 TGGTCTCTGG TTTTTTTAAG CTTTTTTTGC ATATGTTTTG TAAGCAACAA ATTTTTTTGT 2641 ATAAAAGTCC CGTGTCTCTC GCTATTTCTG CTGCTGTTCC TAGACTGAGC ATTGCATTTC 2701 TTGATCAACC AGATGATTAA ACGTTGTATT AAAAAGACCC CGTGTAAACC TGAGCCCCCC 2761 CCGTCCCCCC CCCCGGAAGC CACTGCACAC AGACAGACGG GGACAGGCGG CGGGTCTTTT 2821 GTTTTTTTGA TGTTGGGGGT TCTCTTGGTT TTGTCATGTG GAAAGTGATG CGTGGGCGTT 2881 CCCTGATGAA GGCACCTTGG GGCTTCCCTG CCGCATCCTC TCCCCTCAGG AAGGGGACTG 2941 ACCTGGGCTT GGGGGAAGGG ACGTCAGCAA GGTGGCTCTG ACCCTCCCAG GTGACTCTGC 3001 CAAGCAGCTG TGGCCCCAGC GGTACCCTAC ACAACGCCCT CCCCAGGCCC CCCTAAGCTG 3061 CTCTCCCTTG GAACCTGCAC AGCTCTCTGA AATGGGGCAT TTTGTTGGGA CCAGTGACCC 3121 CTGGCATGGG GACCACACCC TGGAGCCCGG TGCTGGGGAC CTCCTGGACA CCCTGTCCTT 3181 CACTCCTTGC CCCAGGGACC CAGGCTCATG CTCTGAACTC TGGCTGAGAG GAGTCTGCTC 3241 AGGAGCCAGC ACAGGACACC CCCCACCCCA CCCCACCATG TCCCCATTAC ACCAGAGGGC 3301 CATCGTGACG TAGACAGGAT GCCAGGGGCC TGACCAGCCT CCCCAATGCT GGGGAGCATC 3361 CCTGGCCTGG GGCCACACCT GCTGCCCTCC CTCTGTGTGG TCCAAGGGCA AGAGTGGCTG 3421 GAGCCGGGGG ACTGTGCTGG TCTGAGCCCC ACGAAGGCCT TGGGCTGTGG CTCCGACCCT 3481 GCTGCAGAAC CAGCAGGGTG TCCCCTCGGG CCCATCTGTG TCCCATGTCC CAGCACCCAG 3541 GCCTCTCTCC AGGTCTCCTT TTCTGGTCTT TTGCCATGAG GGTAACCAGC TCTTCCCAGC 3601 TGGCTGGGAC TGTCTTGGGT TTAAAACTGC AAGTCTCCTA CCCTGGGATC CCATCCAGTT 3661 CCACACGAAC TAGGGCAGTG GTCACTGTGG CACCCAGGTG TGGGCCTGGC TAGCTGGGGG 3721 CCTTCATGTG CCCTTCATGC CCCTCCCTGC ATTGAGGCCT TGTGGACCCC TGGGCTGGCT 3781 GTGTTCATCC CCGCTGCAGG TCGGGCGTCT CCCCCCGTGC CACTCCTGAG ACTCCACCGT 3841 TACCCCCAGG AGATCCTGGA CTGCCTGACT CCCCTCCCCA GACTGGCTTG GGAGCCTGGG 3901 CCCCATGGTA GATGCAAGGG AAACCTCAAG GCCAGCTCAA TGCCTGGTAT CTGCCCCCAG 3961 TCCAGGCCAG GCGGAGGGGA GGGGCTGTCC GGCTGCCTCT CCCTTCTCGG TGGCTTCCCC 4021 TGCGCCCTGG GAGTTTGATC TCTTAAGGGA ACTTGCCTCT CCCTCTTGTT TTGCTCCTGC 4081 CCTGCCCCTA GGTCTGGGTG GCAGTGGCCC CATAGCCTCT GGAACTGTGC GTTCTGCATA 4141 GAATTCAAAC GAGATTCACC CAGCGCGAGG AGGAAGAAAC AGCAGTTCCT GGGAACCACA 4201 ATTATGGGGG GTGGGGGGTG TGATCTGAGT GCCTCAAGAT GGTTTTCAAA AAATTTTTTT 4261 TAAAGAAAAT AATTGTATAC GTGTCAACAC AGCTGGCTGG ATGATTGGGA CTTTAAAACG 4321 ACCCTCTTTC AGGTGGATTC AGACACCTGT CCTGTATATA ACACCACTGT AGCAATAAAC 4381 GTGACATTTT ATAAAG GENBANK ID: NM_000416.1 VERSION NM_000416.1 GI:4557879 MALLFLLPLVMQGVSRAENGTADLGPSSVPTPTNVTIESYNMNP IVYWEYQIMPQVFVFTVEVKNYCVKNSENIDACTNISHHYCNISDNVCDPSNSLWVRV KARVCQKESAYAKSEEFAVCRDCKIGPPKLDIRKEEKQINIDIFHFSVFVNCDEQEVD YDPETTCYIRVYNVYVRMNGSEIQYKILTQKEGDCDEIQCQLAIPVSSLNSQYCVSAE GVLEVWCVTTEKSKEVCITIFNSSIKCSLWIPVVAALLLWLVLSLVFICFYIKKINPL KEKSIILPKSLISVVRSATLETKPESKYVSLITSYQPFSLEKEVVCEEFLSPATVPGM HTEDNPCKVEHTEELSSITEVVTTEENIPDVVPGSELTPIERESSSPLSSNQSEPGSI ALNSYESRNCSESDHSRNGFDTDSSCLESHSSLSDSEFPPNNKCEIKTEGQELITVIK APTSFGYDKFHVLVDLLVDDSGKESLIGYRPTEDSKEFS GENBANK ID: M27492.1 VERSION M27492.1 GI:186289 MKVLLRLICFIALLISSLEADKCKEREEKIILVSSANEIDVRPC PLNPNEHKGTITWYKDDSKTPVSTEQASRIMQHKEKLWFVFAKVEDSGHYYCVVRNSS YCLRIKISAKEVENEPNLCYNAQAIFKQKLPVAGDGCLVCPYMEFFKNENNELPKLQW YKDCKPLLLDNIHFSGVKDRLIVMNVAEKHRGNYTCHASYTYLGKQYPITRVIEFITL EENKFTRPVIVSPANETNEVDLGSQIQLICNVTGQLSDIAYNKWNGSVIDEDDPVLGE DYYSVENPANKRRSTLITVLNISEIESRFYKNPFTCFAKNTHGIDAAYIQLIYPVTNF QKHMIGICVTLTVIIVCSVFIYKIFKIDIVLWYRDSCYDFLPIKASDGKTYDAYILYP KTVCEGSTSDCDIWVFKVLPEVLEKQCGYKLFIYCRDDYVGEDIVEVINENVKKSRRL IIILVRETSGFSWLGGSSEEQIANYNALVQDGIKVVLLELEKIQDYEKMPESIKFIKQ KHGAIRWSCDFTQGFQSAKTRFWKNVRYHMFVQRRSPSSKHQLLSPATKEKLQREAHV PLG GENBANK ID: L34059 VERSION L34059.1 GI:506409 MTACAGVLLLLLSLSCALRANNEDLTTRETCKAGFSEDDYTALI SQNILEGEKLLQVKFSSCVGTKGTQYETNSMDFKVGADGTVFATRELQVPSEQVAFTV TAWDSQTAEKWDAVVRLLVAQTSSPHSGHKPDKGKKVVALDPSPPPKDTLLPWPQHQN ANGLRRRKRDWVIFPINVFENSRGPFFQQLVRIRSDKDNDIPIRYSITGVGADQPPME VFSINSMSGRNYVTRPMDREEHASYHLRAHAVDNNGNKVENPIDLYIYVIDMNDNHPE FINQVYNCSVDEGSKFGTYVMTITANDADDSTTANGMVRYRTVTQTPQSPSQNNFTIN SETGDIVTVAAGWDREKVQQYTVIVQATDNEGNLNYGLSNTATAIITVTDVNDNPSEF TASTFAGEVPENSVETVVANLTVMDRDQPHSBNWNAVYRIISGDPSGHFSVRTDFVTN EGMVTVVKAVDYELNRAFNLTVNVSNQAPLASGIQNSFQSTAGVTISINDINEAPYFP SNHKLILEEGVPPGTVLTTFSIAVDRDRFMQQAVRYSKLSDPASWLHINATNGQITTV AVLDRESLYTKNNVYEATFLAADNCIFPAS0TGTLQIYLIDINDNAFELLPKEAQICE RPNLNAINITAADADVHPNIGPYVFELPFVFAAVRKNWTITRLNCDYAQLSLRILYLE AGMYDVFIIVTDSGNPFLSNTSIIKVKVCPCDDNGDCTTIGAVAAAGLGTGAIVAILI CILILLTMVLLFVMWMKRREKERHTKQLLIDPEDDVREKILKYDEEGGGEEDQDYDLS QLQQPEAMGHVPSKAPCVRRVDERPVGFEFQYPIRPMVPHPGDIGDFINEGLRAADND PTAPPYDSLLVFDYEGSGSTAGSVSSLNSSSSGDQDYDYLNDWGPRFKKLADMYGGGE ED GENSANK ID: M77640 VERSION M77640.1 GI:186053 MVVALRYVWPLLLCSPCLLIQIPEEYEGHHVNEPPVITEQSPRR LVVFPTDDISLKCEASGKPEVQFRWTRDGVHFKPKEELGVTVYQSFHSQSFTITGNNS NFAQRFQGIYRCFASNKLGTAMSHEIRLMAEGAFKWPKETVKPVEVEEGESVVLPCNP PPSAEFLRIYWMNSKILIHKQDERVTMGQNGNLYFANVLTSDNHSDYICHAEFFGTRT IIQKEPIDLRVKATNSNIDRKPRLLFPTNSSSHLVALQGQPLVLECIAEGFPTPTIKW LRPSGPMFADRVTYQNENKTLQLLKVGEEDDGEYRCLAENSLGSAREAYYVTVEAAPY WLHKPQSHLY0PGETARLDCQVQGRPQPEVTWRINGIFVEELAKDQKYRIQRGALILS NVQPSDTNVTQCEARNRNGLLLANAYIYVVQLPAKILTADNQTYMAVQGSTAYLLCKA FGAPVPSVQWLDEDGTTVLQDERFFPYANGTLGIRDLQANDTCRYFCLAANDQNNVTI MANLKVKDATQITQCFRSTIEKKGSRVTFTCQASFDPSLGPSITWRGDGRDLQELGDS DKYFIEDGRLVIHSLDYSDQGNYSCVASTELDVVESRAQLLVVGSFGPVFRLVLSDLH LLTQSQVRVSWSFAEDHNAFIEKYDIEFEDKENAFEKWYSLGKVFGNQTSTTLKLSPY VHYTFRVTAINKYGPGEPSPVSETVVTPEAAFEKNPVDVKGEGNETTNMVTTWKPLRW MDNNAFQVQYRVQWRPQGTRGPWQEQIVSDPFLVVSNTSTFVPYEIKVQAVNSQGKGP EPQVTIGYSGEDYFQAIPELEGIETLNSSAVLVKWRPVDLAQVKGELRGYNVTYWREG SQRKHSKRHIHKDHVVVFANTTSVILSGLRPYSSYHLEVQAFNGRGSGPASEFTESTP EGVFGHPEALHLECQSNTSLLLRWQPPLSHNGVLTGYVLSYHPLDEGGKGQLSFNLRD PELRTHNLTDLSPELRYRFQLQATTKEGPGEAIVREGGTMALSGISDFGNISATAGEN YSVVSWVFKEGQCNFRFEILFKALGEEKGGASLSPQYVSYNQSSYTQWDLQPDTDYEI HLFKERIAFRHQNAVKTNGTGRVRLFFAGFATEGWFIGFVSAIILLLLVLLILCIKRS KGGKYSVKDKEDTQVDSEARPNKDETFGEYRSLESDNEEKAFGSSQPSLNGDIKPLGS DDSLADYGGSVQVQFNEDGSFIGQYSGKKEKEAAGGNDSSGATSPINPAVALE GENBANK ID: M59911.1 VERSION M59911.1 GI:186496 MGPGPSRAPRAPRLMLCALALMVAAGGCWSAFNLDTRFLVVKE AGNPGSLFGYSVALERQTERQQRYLLLAGAPRELAVPDGYTNRTGAVYLCFLTAHKDD CERMNITVKNDPGEHIIEDNWLGVTVASQGPAGRVLVCAHRYTQVLWSGSEDQRRMVG KCYVRGNDLELDSSDDWQTYHNENCNSNTDYLETGMCQLGTSGGFTQNTVYFGASGAY NWKGNSYNIQRKEWDLSEYSYKDPEDQGNLYIGYTMQVGSFILHPKNITIVTGAPRHR HMGAVFLLSQEAGGDLRRRQVLEGSQVGAYFGSAIALADLNNDGWQDLLVGAPYYFER KEEVGGAIYVFMNQAGTSFPAHPSLLLHCPSGSAFGLSVASIGDINQDGFQDIAVGAP FEGLGKVYIYHSSSKGLLRQPQQVIHGERLGLPGLATFGYSLSGQMDVDENFYPDLLV GSLSDHIVLLRARPVINIVHKTLVPRPAVLDPALCTATSCVQVELCFAYNQSAGNPNY RRNITLAYTLEADRDRRPPRLRFAGSESAVFHGFFSNPENRCQKLELLLMDNLRDKLR PIIISMNYSLPLRNPDRPRLGLRSLDAYPILNQAQALENHTEVQFQKECGPDNKCESN LQMRAAFVSEQQQKLSRLQYSRDVRKLLLSINVTNTRTSERSGEDAHEALLTLVVPPA LLLSSVRPPGACQANETIFCELGNPFKRNQRNELLIAFEVTGVTLHTRDLQVQLQLST SSHQDNLWPMTLTLLVDYTLQTSLSMVNHRLQSFFGGTVMGESGMKTVEDVGSPLKYE FQVGPNGEGLVGLGTLVLGLEWPYEVSNGKWLLYPTETTVHGNGSWPCRPPGDLINPL NLTLSDPGDRPSSPQRRRRQLDPGGGQGPPFVTLAAAKKAKSETVLTCATGRAHCVWL ECPIPDAPVVTNVTVKARVWNSTFTEDYRDFDRVRVNGWATLFLRTSIPTINMENKTT WFSVDIDSELVEELPAETELWLVLVAVGAGLLLLGLIILLLWKCGFFKRARTRALYEA KRQKAEMKSQPSETERLTDDY GENBANK ID: M81695.1 VERSION M81695.1 GI:487829 MTRTRAALLLFTALATSLGFNLDTEELTAFRVGSAGFGDSVVQY ANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSP SQLLACGPTVHHECGRNNYLTGLCFLLGPTQLTQRLPVSRQECPRQEQDIVFLIDGSG SISSRNFATNMNFVRAVISQFQRPSTQFSLNQFSNKFQTHFTFEEFRRTSNPLSLLAS VHQLQGFTYTATAIQNVVHRLFHASYGARRDATKTLIVITDGKKEGDSLDYKDVTPMA DAAGIIRYATGVGLAFQNRNSNKELNDTASKPSQEHIFKVEDFDALKDIQNQLKEKIF AIEGTETTSSSSFELENAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNNSPTFIN MSQENVDNRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRNKAEVT GTQTGSYFGASLCSVDVDTDGSTDLVLTGAPHYYEQTRGGQVSVCPLPRGWRRWWCDA VLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISP SNSQRTAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVS MQFIPAETPRSAFECREQVVSEQTLVQSNTCLYIDKRSKNLLGSRDLQSSVTLDLALD PGELSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEGSVTPTTLRLNFTLVG KPLLAFRNLRPMLAALAQRYFTASLPFEKNCGADHTCQDNLGISFSFPGLKSLLVGSN LELNAEVNVWNDGEDSYGTTITFSHPAGLSYRYVAEGGKQGQLRSLHLTCDSAPVGSQ GTWSTSCRTNHLTFRGGAQTTFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTF QLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSTNFW VPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSTAGCLRF RCDVPSFSVQEELDFTLKGNLSFGWVRQTLQKKVSVVSVAETTFDTSVYSQLPGQEAF MRAQTTTVLEKYKVHNPTPLTVGSSTGGLLLLALITAVLYKVGFFKRQYKEMMEEANG QTAPENGTQTPSPPSEK GENBANK ID: X51841.1 VERSION X51841.1 GI:33910 MAGPEPSPWARLLLAALTSVSLSGTLANRCKKAPVKSCTECVRV DKDCAYCTDEMFRDRRCNTQAELLAAGCQRESIVVMESSFQTTEETQTDTTLRRSQNS PQGLRVRLRPGFERHFELEVFEPLESPVDLYTLNDFSNSMSDDLDNLKKMGQNLARVL SQLTSDYTIGFGKFVDKVSVPQTDMRPEKLKEFWPNSDPPFSFKNVISLTEDVDEFRN KLQGERISGNLDAPEGGFDAILQTAVCTRDIGWRFDSTHLLVESTESAFHYEADGANV LAGIMSRNDERCHLDTTGTYTQYRTQDYPSVPTLVRLLAKHNIIPIFAVTNYSYSYYE KLHTYFPVSSLGVLQEDSSNIVELLEEAFNRIRSNLDIRALDSPRGLRTEVTSKMFQK TRTGSPHIRRGEVGIYQVQLRALEHVDGTHVCQLPEDQKGNIHLKPSFSDGLKMDAGI ICDVCTCELQKEVRSARCSFNGDFVCGQCVCSEGWSGQTCNCSTGSLSDIQFCLREGE DKPCSGRGECQCCHCVCYGEGRYEGQFCEYDNFQCPRTSGFLCNDRGRCSMGQCVCEP GWTGPSCDCPLSNATCIDSNGGICNGRGHCECGRCHCHQQSLYTSTICEINYSATHPG LCEDLRSCVQCQAWGTCEKKGRTCEECNFKVKMVDELKRAEEVVVRCSFRDEDDDCTY SYTMEGDGAPGPNSTVLVHKKKDCPPGSFNWLIPLLLLLLPLLALLLLLCWKYCACCK ACLALLPCCNRGHMVGFKEDHYMLRENLMASDHLDTPMLRSGNLKGRDVVRWKVTNNM QRPGFATHAASTNPTELVPYGLSLRLARLCTENLLKPDTRECAQLRQEVEENLNEVYR QISGVHKLQQTKFRQQPNAGKKQDHTTVDTVLMAPRSAKPALLKLTEKQVEQRAFHDL KVAPGYYTLTADQDARGNVEFQEGVELVDVRVFLFIRPEDDDEKQLLVEAIDVPAGTA TLGRRLVNITIIKEQARDVVSFEQFEFSVSRGDQVARIPVTRRVLDCGKSQVSYRTQD GTAQENRDYTPVEGELLFQPGEAWKELQVKLLELQEVDSLLRGRQVRRFHVQLSNPKF GAHLGQPHSTTIIIRDEDELDRSFTSQMLSSQPPFHGDLGAPQNPNAKAAGSRKIHFN WLPPSGKPMCYRVKYNIQGDSESEAHLLDSKVFSVELTNLYPYCDYEMKVCAYGAQGE GEYSSLVSCRTHQEVPSEPGRLAFNVVSSTVTQLSWAEPAETNGEITAYEVCYGLVND DNREIGPMKKVLVDNPKNRMLLIENLRESQFYRYTVKARNGAGWGPEREAIINLATQP KRPMSIFIIPDIPIVDAQSGEDYDSFLMYSDDVLRSPSGSQRPSVSDDTEHLVNGRMD FAFPGSTNSLHRNTTTSAAAYGTHLSPHVPHRVLSTSSTLTRDYNSLTRSEHSHSTTL PRDYSTLTSVSSHDSRLTAGVFDTPTRLVFSALGPTSLRVSWQEPRCERPLQGYSVEY QLLNGGELHRLNIFNPAQTSVVVEDLLPNHSYVFRVRAQSQEGWGREREGVITIESQV HPQSPLCPLPGSAFTLSTPSAPGPLVFTALSPDSLQLSWERPRRFNGDIVGYLVTCEM AQGGGPATAFRVDGDSPESRLTVPGLSENVPYKFKVQARTTEGFGPEREGIITIESQV GGPFPQLGSRAGLFQHFLQSEYSSITTTHTSATEPFLVDGPTLGAQHLEACGSLTRHV TQEFVSRTLTTSGTLSTHMDQQFFQT GENBANK ID: XP_030326.1 VERSION XP_030326.1 GI:14763626 1 MDKFWWHAAW GLCLVPLSLA QIDLNITCRF AGVFHVEKNG RYSISRTEAA DLCKAFNSTL 61 PTMAQMEKAL SIGPETCRYG FIEGHVVIPR IHPNSICAAN NTGVYILTSN TSQYDTYCFN 121 ASAPFEEDCT SVTDLPNAFD GPITITIVNR DGTRYVQKGE YRTNPEDIYP SNPTDDDVSS 181 GSSSERSSTS GGYIFYTFST VHPIPDEDSE WITDSTDRIP ATTLNSTSAT ATETATKRQE 241 TWDWPSWLPL PSESKNHLHT TTQMAGTSSN TISAGWEPNE ENEDERDRHL SFSGSGIDDD 301 EDFISSTIST TPRAFDHTKQ NQDWTQWNPS HSNPEVLLQT TTRMTDVDRN GTTAYEGNWN 361 PEAHPPLIHH EHHEEEETPH STSTIQATPS STTEETATQK EQWFGNRWHE GYRQTEKEDS 421 HSTTGTAAAS AHTSHPMQGR TTPSFEDSSW TDFFNPISHP MGRGHQAGRR MDMDSSHSIT 481 LQPTANPNTG LVEDLDRTGP LSMTTQQSNS QSFSTSHEGL EEDKDHPTTS TLTSSNRNDV 541 TGGRRDPNHS EGSTTLLEGY TSHYPHTKES RTFIPVTSAK TGSPGVTAVT VGDSNSNVNR 601 SLSGDQDTFH PSGGSHTTEG SESDGESHGS QEGGANTTSG PIRTEQIPEW LIILASLLAL 661 ALILAVCIAV NSRRRCGQKK KLVINSGNGA VEDRKPSGLN GEASKSQEMV HLVNKESSET 721 PDQFMTADET RNLQNVDMKI GV GENBANK ID: NP_000826.1 VERSION NP_000826.1 GI:4504129 1 MGGALGPALL LTSLPGAWAG LGPGQGEQGM TVAVVFSSSG PPQAQFRARL TPQSFLDLPL 61 EIQPLTVGVN TTNPSSLLTQ ICGLLGAAHV HGIVPEDNVD TEAVAQILDF ISSQTHVPIL 121 SISGGSAVVL TPKEPGSAFL QLGVSLEQQL QVLFKVLEEY DWSAFAVITS LHPGHALFLE 181 GVRAVADASH VSWRLLDVVT LELGEGGPRA RTQRLLRQLD APVPVAYCSR EEAEVLFAEA 241 AQAGLVGPGH VWLVPNLALG STDAPPATFP VGLISVVTES WRLSLRQKVR DGVAILALGA 301 HSYWRQHGTL PAPAGDCRVH PGPVSPAREA FYRHLLNVTW EGRDPSFSPG GYLVQPTMVV 361 IALNRHRLWE MVGRWEHGVL YMKYPVWPRY SASLQPVVDS RHLTVATLEE RPPVIVESPD 421 PGTGGCVPNT VPCRRQSNHT FSSGDVAPYT KLCCKGFCID ILKKLARVVK FSYDLYLVTN 481 GKHGKRVRGV WNGMIGEVYY KRADMAIGSL TINEERSEIV DPSVPFVETG ISVMVARSNG 541 TVSPSAFLEP YSPAVWVMMF VMCLTVVAIT VFMFEYPSPV SYNQNLTRGK KSGGPAFTIG 601 KSVWLLWALV FNNSVPIENP RGTTSKIMVL VWAFFAVIFL ASYTANLAAF MIQEQYIDTV 661 SGLSDKKPQR PQDQYPPFRF GIVPNGSTER NIRSNYRDMH THMVKFNQRS VEDALTSLKM 721 GKLDAFIYDA AVLNYMAGKD EGCKLVTIGS GKVPATTGYG IANQKDSHWK RAIDLALLQF 781 LGDGETQKLE TVWLSGICQN EKNEVMSSKL DIDNMAGVFY MLLVAMGLAL LVFAWEHLVY 841 WKLRHSVPNS SQLDPLLAFS RGIYSCPSGV QSLASPPRQA SPDLTASSAQ ASVLKNLQAA 901 RDMVTTAGVS SSLDRATRTI ENWGGGRRAP PPSPCPTPRS GPSPCLPTPD PPPEPSETGW 961 GPPDGGRAAL VRRAPQPPGR PPTPGPPLSD VSRVSRRPAW EARWPVRTGH CGRELSASER 1021 PLSPARCHYS SFPRADRSGR PFLPLFPEPP ELEDLPLLGP EQLARREALL HAAWARGSRP 1081 RHASLPSSVA EAFARPSSLP AGCTGPACAR PDGHSACRRL AQAQSMCLPI YREACQEGEQ 1141 AGAPAWQHRQ HVCLHAHAHL PFCWGAVCPH LPPCASHGSW LSGAWGPLGH RGRTLGLGTG 1201 YRDSGGLDEI SSVARGTQGF PGPCTWRRIS SLESEV GENBANK ID: CAA43045.1 DEFINITION HUMAN CDW40 MRNA FOR NERVE GROWTH FACTOR RECEPTOR-RELATED B-LYMPHOCYTE ACTIVATION MOLECULE. VERSION X60592.1 GI:29850 CDS 48..881 /CODON_START=1 1 GCCTCGCTCG GGCGCCCAGT GGTCCTGCCG CCTGGTCTCA CCTCGCCATG GTTCGTCTGC 61 CTCTGCAGTG CGTCCTCTGG GGCTGCTTGC TGACCGCTGT CCATCCAGAA CCACCCACTG 121 CATGCAGAGA AAAACAGTAC CTAATAAACA GTCAGTGCTG TTCTTTGTGC CAGCCAGGAC 181 AGAAACTGGT GAGTGACTGC ACAGAGTTCA CTGAAACGGA ATGCCTTCCT TGCGGTGAAA 241 GCGAATTCCT AGACACCTGG AACAGAGAGA CACACTGCCA CCAGCACAAA TACTGCGACC 301 CCAACCTAGG GCTTCGGGTC CAGCAGAAGG GCACCTCAGA AACAGACACC ATCTGCACCT 361 GTGAAGAAGG CTGGCACTGT ACGAGTGAGG CCTGTGAGAG CTGTGTCCTG CACCGCTCAT 421 GCTCGCCCGG CTTTGGGGTC AAGCAGATTG CTACAGGGGT TTCTGATACC ATCTGCGAGC 481 CCTGCCCAGT CGGCTTCTTC TCCAATGTGT CATCTGCTTT CGAAAAATGT CACCCTTGGA 541 CAAGCTGTGA GACCAAAGAC CTGGTTGTGC AACAGGCAGG CACAAACAAG ACTGATGTTG 601 TCTGTGGTCC CCAGGATCGG CTGAGAGCCC TGGTGGTGAT CCCCATCATC TTCGGGATCC 661 TGTTTGCCAT CCTCTTGGTG CTGGTCTTTA TCAAAAAGGT GGCCAAGAAG CCAACCAATA 721 AGGCCCCCCA CCCCAAGCAG GAACCCCAGG AGATCAATTT TCCCGACGAT CTTCCTGGCT 781 CCAACACTGC TGCTCCAGTG CAGGAGACTT TACATGGATG CCAACCGGTC ACCCAGGAGG 841 ATGGCAAAGA GAGTCGCATC TCAGTGCAGG AGAGACAGTG AGGCTGCACC CACCCAGGAG 901 TGTGGCCACG TGGGCAAACA GGCAGTTGGC CAGAGAGCCT GGTGCTGCTG CTGCAGGGGT 961 GCAGGCAGAA GCGGGGAGCT ATGCCCAGTC AGTGCCAGCC CCTC GENBANK ID: AAB59544.1 DEFINITION HUMAN NERVE GROWTH FACTOR RECEPTOR MRNA, COMPLETE CDS. VERSION M14764.1 GI:189204 CDS 114..1397 /CODON_START=1 1 GCCGCGGCCA GCTCCGGCGG GCAGGGGGGG CGCTGGAGCG CAGCGCAGCG CAGCCCCATC 61 AGTCCGCAAA GCGGACCGAG CTGGAAGTCG AGCGCTGCCG CGGGAGGCGG GCGATGGGGG 121 CAGGTGCCAC CGGCCGCGCC ATGGACGGGC CGCGCCTGCT GCTGTTGCTG CTTCTGGGGG 181 TGTCCCTTGG AGGTGCCAAG GAGGCATGCC CCACAGGCCT GTACACACAC AGCGGTGAGT 241 GCTGCAAAGC CTGCAACCTG GGCGAGGGTG TGGCCCAGCC TTGTGGAGCC AACCAGACCG 301 TGTGTGAGCC CTGCCTGGAC AGCGTGACGT TCTCCGACGT GGTGAGCGCG ACCGAGCCGT 361 GCAAGCCGTG CACCGAGTGC GTGGGGCTCC AGAGCATGTC GGCGCCGTGC GTGGAGGCCG 421 ACGACGCCGT GTGCCGCTGC GCCTACGGCT ACTACCAGGA TGAGACGACT GGGCGCTGCG 481 AGGCGTGCCG CGTGTGCGAG GCGGGCTCGG GCCTCGTGTT CTCCTGCCAG GACAAGCAGA 541 ACACCGTGTG CGAGGAGTGC CCCGACGGCA CGTATTCCGA CGAGGCCAAC CACGTGGACC 601 CGTGCCTGCC CTGCACCGTG TGCGAGGACA CCGAGCGCCA GCTCCGCGAG TGCACACGCT 661 GGGCCGACGC CGAGTGCGAG GAGATCCCTG GCCGTTGGAT TACACGGTCC ACACCCCCAG 721 AGGGCTCGGA CAGCACAGCC CCCAGCACCC AGGAGCCTGA GGCACCTCCA GAACAAGACC 781 TCATAGCCAG CACGGTGGCA GGTGTGGTGA CCACAGTGAT GGGCAGCTCC CAGCCCGTGG 841 TGACCCGAGG CACCACCGAC AACCTCATCC CTGTCTATTG CTCCATCCTG GCTGCTGTGG 901 TTGTGGGCCT TGTGGCCTAC ATAGCCTTCA AGAGGTGGAA CAGCTGCAAG CAGAACAAGC 961 AAGGAGCCAA CAGCCGGCCA GTGAACCAGA CGCCCCCACC AGAGGGAGAA AAACTCCACA 1021 GCGACAGTGG CATCTCCGTG GACAGCCAGA GCCTGCATGA CCAGCAGCCC CACACGCAGA 1081 CAGCCTCGGG CCAGGCCCTC AAGGGTGACG GAGGCCTCTA CAGCAGCCTG CCCCCAGCCA 1141 AGCGGGAGGA GGTGGAGAAG CTTCTCAACG GCTCTGCGGG GGACACCTGG CGGCACCTGG 1201 CGGGCGAGCT GGGCTACCAG CCCGAGCACA TAGACTCCTT TACCCATGAG GCCTGCCCCG 1261 TTCGCGCCCT GCTTGCAAGC TGGGCCACCC AGGACAGCGC CACACTGGAC GCCCTCCTGG 1321 CCGCCCTGCG CCGCATCCAG CGAGCCGACC TCGTGGAGAG TCTGTGCAGT GAGTCCACTG 1381 CCACATCCCC GGTGTGAGCC CAACCGGGGA GCCCCCGCCC CGCCCCACAT TCCGACAACC 1441 GATGCTCCAG CCAACCCCTG TGGAGCCCGC ACCCCCACCC TTTGGGGGGG GCCCGCCTGG 1501 CAGAACTGAG CTCCTCTGGG CAGGACCTCA GAGTCCAGGC CCCAAAACCA CAGCCCTGTC 1561 AGTGCAGCCC GTGTGGCCCC TTCACTTCTG ACCACACTTC CTGTCCAGAG AGAGAAGTGC 1621 CCCTGCTGCC TCCCCAACCC TGCCCCTGCC CCGTCACCAT CTCAGGCCAC CTGCCCCCTT 1681 CTCCCACACT GCTAGGTGGG CCAGCCCCTC CCACCACAGC AGGTGTCATA TATGGCGGGC 1741 CAACACCAGC GATGGTACTA GGGGCAAGTG ACAAGGCCCC AGAGACTGAG AGGGAGGAAT 1801 CGAGGAACCA GAGCCATGGA CTCTACACTG TGAACTTGGG GAACAAGGGT GGCATCCCAG 1861 TGGCCTCAAC CCTCCCTCAG CCCCTCTTGC CCCCCACCCC AGCCTAAGAT GAAGAGGATC 1921 GGAGGCTTGT CAGAGCTGGG AGGGGTTTTC GAAGCTCAGC CCACCCCCCT CATTTTGGAT 1981 ATAGGACAGT GAGGCCCAGG GAGAGGGCAT GATTCGCCCA AAGCCAGACA GCAACGGGGA 2041 GGCCAAGTGC AGGCTGGCAC CGCCTTCTCT AAATGAGGGG CCTCAGGTTT GCCTGAGGGC 2101 GAGGGGAGGG TGGCAGGTGA CCTTCTGGGA AATGGCTTGA AGCCAAGTCA GCTTTGCCTT 2181 CCACGCTGTC TCCAGACCCC CACCCCTTCC CCACTGCCTG CCCACCCGTG GAGATGGGAT 2221 GCTTGCCTAG GGCCTGGTCC ATGATGGAGT CAGGTTTGGG GTTCGTGGAA AGGGTGCTGC 2281 TTCCCTCTGC CTGTCCCTCT CAGGCATGCC TCTGTGACAT CAGTGGCATG GCTCCAGTCT 2341 GCTGCCCTCC ATCCCGACAT GGACCCGGAG CTAACACTGG CCCCTAGAAT CAGCCTAGGG 2401 GTCAGGGACC AAGGACCCCT CACCTTGCAA CACACAGACA CACGCACACA CACACACAGG 2461 AGGAGAAATC TCACTTTTCT CCATGAGTTT TTTCTCTTGG GCTGAGACTG GATACTGCCC 2521 GGGGCAGCTG CCAGAGAAGC ATCGGAGGGA ATTGAGGTCT GCTCGGCCGT CTTCACTCGC 2581 CCCCGGGTTT GGCGGGCCAA GGACTGCCGA CCGAGGCTGG AGCTGGCGTC TGTCTTCAAG 2841 GGCTTACACG TGGAGGAATG CTCCCCCATC CTCCCCTTCC CTGCAAACAT GGGGTTGGCT 2701 GGGCCCAGAA GGTTGCGATG AAGAAAAGCG GGCCAGTGTG GGAATGCGGC AAGAAGGAAT 2761 TGACTTCGAC TGTGACCTGT GGGGATTTCT CCCAGCTCTA GACAACCCTG CAAAGGACTG 2821 TTTTTTCCTG AGCTTGGCCA GAAGGGGGCC ATGAGGCCTC AGTGGACTTT CCACCCCCTC 2881 CCTGGCCTGT TCTGTTTTGC CTGAAGTTGG AGTGAGTGTG GCTCCCCTCT ATTTAGCATG 2841 ACAAGCCCCA GGCAGGCTGT GCGCTGACAA CCACCGCTCC CCAGCCCAGG GTTCCCCCAG 3001 CCCTGTGGAA GGGACTAGGA GCACTGTAGT AAATGGCAAT TCTTTGACCT CAACCTGTGA 3061 TGAGGGGAGG AAACTCACCT GCTGGCCCCT CACCTGGGCA CCTGGGGAGT GGGACAGAGT 3121 CTGGGTGTAT TTATTTTCCT CCCCAGCAGG TGGGGAGGGG GTTTGGTGGC TTGCAAGTAT 3181 GTTTTAGCAT GTGTTTGGTT CTGGGGCCCC TTTTTACTCC CCTTGAGCTG AGATGGAACC 3241 CTTTTGGCCC CCAGCTGGGG GCCATGAGCT CCAGACCCCC AGCAACCCTC CTATCACCTC 3301 CCCTCCTTGC CTCCTGTGTA ATCATTTCTT GGGCCCTCCT GAAACTTACA CACAAAACGT 3361 TAAGTGATGA ACATTAAATA GCAAAG GENEANK ID: NP_002502.1 VERSION NM_002511.1 GI:4505406 CDS 140..1312 /CODON_START=1 1 GTGCTGTGAG GCTTGCCCGC GGACAGTAAA CTTGCAGGGG CGAGAGGGAG GGACATCGAT 61 TAAACCTAAA TCGTGGGCGT TCAGTCCTCA GGGCACCGAG CGCGTGAAAA CTCCAGCGGA 121 CTCTGCTGGA AAGGAGATCA TGCCCTCTAA GTCTCTTTCC AACCTCTCGG TGACCACCGG 181 CGCGAATGAG AGCGGTTCCG TTCCCGAGGG GTGGGAAAGG GATTTCCTGC CGGCCTCGGA 241 CGGGACCACC ACGGAGTTGG TGATCCGCTG TGTGATCCCG TCCCTCTACC TGCTCATCAT 301 CACCGTGGGC TTGCTGGGCA ACATCATGCT GGTGAAGATC TTCATCACCA ACAGCGCCAT 361 GAGGAGCGTC CCCAACATCT TCATCTCTAA CCTGGCGGCC GGGGACTTGC TGCTGCTGCT 421 CACCTGCGTC CCGGTGGACG CCTCGCGCTA CTTCTTCGAC GAGTGGATGT TTGGCAAGGT 481 GGGCTGCAAA CTGATCCCTG TCATCCAGCT CACTTCCGTG GGGGTTTCCG TGTTCACTCT 541 CACTGCCCTC AGCGCCGACA GGTACAGAGC CATCGTTAAC CCCATCGACA TGCAGACGTC 601 AGGGCCATTG CTGCGGACCT GTGTGAAGGC CATGGGTATC TGGGTGGTCT CCGTGTTGCT 661 GGCAGTTCCC GAAGCGGTGT TTTCAGAAGT GGCTCGCATC AGTAGCTTGG ATAATAGCAG 721 CTTCACAGCA TGTATCCCAT ACCCTCAAAC AGATGAATTA CATCCAAAGA TTCATTCAGT 781 GCTCATTTTC TTGGTCTATT TCCTCATACC ACTTGCTATT ATTAGCATTT ATTATTATCA 841 TATTGCAAAG ACCTTAATTA AAAGCGCACA CAATCTTCCT GGAGAATACA ATGAACATAC 901 CAAAAAACAG ATGGAAACAC GGAAACGCCT GGCTAAAATT GTGCTTGTCT TTCTGGGCTG 981 TTTCATCTTC TGTTGGTTTC CAAACCACAT CCTTTACATG TATCGGTCTT TCAACTATAA 1021 TGAGATTGAT CCATCTCTAG GCCACATGAT TGTCACCTTA GTTGCCCGGG TTCTCAGTTT 1081 TGGCAATTCT TGTGTCAACC CATTTGCTCT TTACCTACTC AGTGAAAGCT TCAGGAGGCA 1141 TTTCAACAGC CAACTCTGCT GTGGGAGGAA GTCCTATCAA GAGAGAGGAA CCAGCTACCT 1201 ACTCAGCTCT TCAGCGGTGC GTATGACATC TCTGAAAAGC AATGCTAAGA ACATGGTGAC 1261 CAATTCTGTT TTACTAAATG GGCACAGCAT GAAGCAGGAA ATGGCAATCT GATTTTGGCC 1321 ATTCAACTCA CTACCTGGAG AGAACTTAGT AA GENBANK ID: Q00941 EST DNA TYPE: CDNA CGAAGGCGCGGCGGGCTCGGGGGCGGAGAACCTGACCTGCGAGATCCGAGCCGAGCGCTT TCTTTTCTGCGCGTGGCGGGAGGGGCCAGCGGCGCCCGCGGACGTCCGGTACTCGCTGCG AGTCCTTAACTCCACGGGTCACGACGTGGCGCGATGCATGGCCGACCCTGGGGATGACGT CATGACACAGTGCATTGCGAACGACTTGTCACTGATGGGGAGTGAGGCCTACTTGGTCGT GACCGGTCGCACCGGAGCGGGGCCAGTGCGGATCCTGGACGACTTGGTGGCTACGAAGGC GCTCGACCGACTCGATCCCTCACCTGACGTCACCGAGTCCTGTAACTATTCCCACTGCAC CGAGTCGTGGGCGCCGCCCTAGACCTGTGCATCCTATGAGGTGCGGGACTTGCAGTGTGA GGTCCAGTGGCAGAGCACATATCCAGGAAGCTCACTCCAGAATGTGCTCATCCGCGAGGA GAGGCGGTTTGCCTTTCGCACGCTGTTCCGCTCGAGGTTACATTGCTAAAGTGCGCACAG GGTACACGAGGATGAGCACTGTGGCGAATGGTATAAGCGGCATCCTGTTATGGCTGAG GENBANK ID: P05106 EST DNA TYPE: CDNA CGGCCGCTGCACAGCAGCCCATTGCTGGACATGCAGGTGTCAGTACGCGTGGTACAGTTG CAGTAGTAGCCGGTCCAGTCGGAGTCACACAGGCAGTCCCCACAGCTGCACTGGCCATGG CCTGAGCACATCTCCCCCTTGTAGCGGACACAGGAGAAGTCGTCACACTCGCAGTACTTG CCCGTGATCTTGCCAAAGTCACTGCTGTGGCAGACACATTGACCACAGAGGCACTCGCCC CGCTGGCTGCAGACGGGCTGACCCTCTCGGGGGCTGCACTCGTCCTGCTGGGAAGGGCGA TAGTCCTCCTCTGAGCACTCACACTGGGATCCCAGCCAGCCAGGCCCACAACGGCATACC CCACACTCAAAGGTCCCATTGCCATTGTTGCAGCGATGGCTATTAGGTTCAGCTTGGGCC TGGCAGGCACAGTCACAATCAAAGGTGACCTGGACGATCAGGCTGTCCTTGAAGCCCACG GGCTTTATGGTAAAGGACTTCTCCTTCTCCTGGGGACAGCCTCGCACCTTGGCCTCAATG CTGAAGCTCACCGTGTCTCCAATCTTGAGTCCCATACAAGACTTGAGGCCAGGGATGACC TCATTGGTGAGGCAGGT EST GENBANK ACC: BF115658 DNA TYPE: CDNA GCGGCCGCTGCACAGCAGCCCATTGCTGGACATGCAGGTGTCAGTACGCGTGGTACAGTT GCAGTAGTAGCCGGTCCAGTCGGAGTCACACAGGCAGTCCCCACAGCTGCACTGGCCATG GCCTGAGCACATCTCCCCCTTGTAGCGGACACAGGAGAAGTCGTCACACTCGCAGTACTT GCCCGTGATCTTGCCAAAGTCACTGCTGTGGCAGACACATTGACCACAGAGGCACTCGCC CCGCTGGCTGCAGACGGGCTGACCCTCCCGGGGGCTGCATTCGTCCTGCTGGGAAGGGCG ATAGTCCTCCTCTGAGCACTCACACTGGGATCCCAGCCAGCCAGGCCCACAACGGCATAC CCCACACTCAAAGGTCCCATTGCCATTGTTGCAGCGATGGCTATTAGGTTCAGCTTGGGC CTGGCAGGCACAGTCACAATCAAAGGTGACCTGNACGATCAGGCTGTCCTTGAAGCCCAC GGGCTNTATGGTAAAGGACTTCTCCTTCTCCTGGGGACAGCCTCGCACCTTGGCCTCAAT GCTGAAGCTCACCGTGTCTCCAATCTTGAGTCCCATACAAGACTTGAGGCCAGGGATGAC CTCATTGTTGAGGCATGTGGCATTGAAGGATAGAGANCACTCTTCAGGACGTCACGCACT TTCAGCTCGACTTTAGAACGGAATTTCCATAAGCATCAACAATGAGCCTGAGGACATTGC CTGAATCCATGGACAGAACCCCCACTGTGGTCCC EST GENBANK ACC: BFD62996 CGGCCGCTGCACAGCAGCCCATTGCTGGACATGCAGGTGTCAGTACGCGTGGTACAGTTG CAGTAGTAGCCGGTCCAGTCGGAGTCACACAGGCAGTCCCCACAGCTGCACTGGCCATGG CCTGAGCACATCTCCCCCTTGTAGCGGACACAGGAGAAGTCGTCACACTCGCAGTACTTG CCCGTGATCTTGCCAAAGTCACTGCTGTGGCAGACACATTGACCACAGAGGCACTCGCCC CGCTGGCTGCAGACGGGCTGACCCTCCCGGGGGCTGCATTCGTCCTGCTGGGAAGGGCGA TAGTCCTCCTCTGAGCACTCACACTGGGATCCCAGCCAGCCAGGCCCACAACGGCATACC CCACACTCAAAGGTCCCATTGCCATTGTTGCAGCGATGGCTATTATGTTCAGCTTGGGCC TGGCAGGCACAGTCACAATCAAAGGTGACCTGGACGATCAGGCTGTCCTTGAAGCCCACG GGCTTTATGGTAAAGGAATTCTCCTTTTCCTTGGGACAGACTCGCACCTTGGCCCTAATG CTGAAGCTCACCGAGATCTTCAT GENBANK ID: CAA52348.1 VERSION X74295.1 GI:437781 CDS <1..234 /CODON_START=1 1 AAGATGGGAT TCTTCAAACG GGCGAAGCAC CCCGAGGCCA CCGTGCCCCA GTACCATGCG 61 GTGAAGATTC CTCGGGAAGA CCGACAGCAG TTCAAGGAGG AGAAGACGGG CACCATCCTG 121 AGGAACAACT GGGGCAGCCC CCCGCCGGAC GGCCCGGATG CACACGCCAT CCTCGCTGCT 181 GACGGGCATC CCCAGCTGGG CCCCAATGGG CATCCAGGGC CAGGCACCGC CTAGGTTCCC 241 ATGTCCCAGC CTGCGCTGTG GCTGCCCTCC ATCCCTTCCC CAGAGATGGC TCCTTGGGAT 301 GAAGAGGGTA GAGTCGGCTG CTGGTGTCAC ATCAAGAATT TGGCAGGATC GGCTTCCTCA 361 GGGGCACAGA CCTCTCCCAC CCACAAGAAC TGCTGCCACG CAACTTCCCC TTAGAGTGCT 421 GTGAGATGAG AGTGGGTAAA TCAGGGACAG GGCCATGGGG TAGGGTGAGA AGGGCAGGGG 481 TGTCCTGATG CAAAGGTGGG GAGAAGGATC CTAATCCCTT CCTCTCCCAT TCACCCTGTG 541 TAACAGGACC CCAAGGACCT GCCTCCCCGG AAGTGCCTTA ACCTAGAGGG TCGGGGAGGA 601 GGTTGTGTCA CTGACTCAAG GCTGCTCCTT CTCTAGTTTC CCCTCTCATC TGACCTTAGT 661 TTGCTGCCAT CAGTCTAGTG GTTTCGTGGT TTCGTCTATT TATTAAAAAA TCGGAACCC GENBANK ID: M57627 VERSION CAA51942.1 GI:580177 1 MHSSAL GENBANK ID: AAA52578.1 VERSION AAA52578.1 GI:183364 1 MWLQSLLLLG TVACSISAPA RSPSPSTQPW EHVNAIQEAR RLLNLSRDTA AEMNETVEVI 61 SEMFDLQEPT CLQTRLELYK QGLRGSLTKL KGPLTMMASH YKQRCPPTPE TSCATQIITF 121 ESFKENLKDF LLVIPFDCWE PVQE GENBANK ID: AAA58482.1 VERSION AAA58482.1 GI:182669 1 METNFSIPLN ETEEVLPEPA GHTVLWIFSL LVHGVTFVFG VLGNGLVIMV AGFRMTRTVN 61 TICYLNLALA DFSFSAILPF RNVSVANREK WPFASFLCKL VHVNIDINLF VSVYLITIIA 121 LDRCICVLHP AWAQNHRTMS LAKRVMTGLW IFTIVLTLPN FIFNTTISTT NGDTYCIFNF 181 AFWGDTAVER LNVFITNAKV FLILHFIIGF TVPMSIITVC YGIIAAKIHR NHMIKSSRPL 241 RVFAAVVASF FICWFPYELI GILMAVWLKE NLLNGKYKII LVLINPTSSL AFFNSCLNPI 301 LYVFMGRNFQ ERLIRSLPTS LERALTEVPD SAQTSNTHTT SASPPEETEL QAM GENBANK ID: P17774 VERSION P17774 GI:121324 1 MSESLVVCDV AEDLVEKLRK FRFRKETNNA ATINKIDMDK RLVVLDEELE GISPDELKDE 61 LPERQPRFIV YSYKYQHDDG RVSYPLCFIF SSPVGCKPEQ QMMYAGSKNK LVQTAELTKV 121 FEIRNTEDLT EEWLREKLGF FH GENBANK ID: P51858 VERSION P51858 GI:1708157 1 MSRSNRQKEY KCGDLVFAKM KGYPHWPARI DEMPEAAVKS TANKYQVFFF GTHETAFLGP 61 KDLFPYEESK EKFGKPNKRK GFSEGLWEIE NNPTVKASGY QSSQKKSCVE EPEPEPEAAE 121 GDGDKKGNAE GSSDEEGKLV IDEPAKEKNE KGALKRRAGD LLEDSPKRPK EAENPEGEEK 181 EAATLEVERP LPNEVEKNST PSEPGSGRGP PQEEEEEEDE EEEATKEDAE APGIRDHESL 241 GENBANK ID: P10147 VERSION P10147 GI:127078 1 MQVSTAALAV LLCTMALCNQ FSASLAADTP TACCFSYTSR QIPQNFIADY FETSSQCSKP 61 GVIFLTKRSR QVCADPSEEW VQKYVSDLEL SA GENBANK ID: P13500 VERSION P13500 GI:126842 1 MKVSAALLCL LLIAATFIPQ GLAQPDAINA PVTCCYNFTN RKISVQRLAS YRRITSSKCP 61 KEAVIFKTIV AKEICADPKQ KNVQDSMDHL DKQTQTPKT GENBANK ID: NP_065391.1 VERSION NP_065391.1 GI:10092621 1 MGVLLTQRTL LSLVLALLFP SMASMAAIGS CSKEYRVLLG QLQKQTDLMQ DTSRLLQPYI 61 RIQGLDVFKL REHCRERPGA FPSEETLRGL GRRGFLQTLN ATLGCVLHRL ADLEQRLFKA 121 QDLERSGLNI EDLEKLQMAR FNILGLRNNI YCMAQLLDNS DTAEPTKAGR DASQPPTPTP 181 ASDAFQRKLE GCRFLHGYHR FMESVGRVFS KWGESFNRSR RHSPHQALRK GVRRTRPSRK 241 GKRLMTRGQL PR GENBANK ID: XP_013053.3 VERSION XP_013053.3 GI:14768277 1 MERERETLQA WEERVGQELD RVVAFWNEHS HDQEEGGFFT CLGREGRVYD DLKYVWLQGR 61 QVWMYCRLYR TFERFRHAQL LDAAKAGGEF LLRYARVAPP GKKCAFVLTR DGRPVKVQRT 121 IFSECFYTMA MNELWRATGE VRYQTEAVEM MDQIVHWVQE DASGLGRPQL QGAPAAEPMA 181 VPMNLLNLVE QLGEADEELA GKYAELGDWC ARRILQHVQR DGQAVLENVS EGGKELPGCL 241 GRQQNPGHTL EAGWFLLRHC IRIGDPELRA HVIDKWLLLP FHSGWDPDHG GLFYFQDADN 301 FCPTQLEWAN KLWWPHSEAM IAFLMGYSDS GDPVLLRLFY QVAEYTFRQF RDPEYGENFG 361 YLSREGKVAL SIKGGPFKGC FHVPRCLAMC EEMLGALLSR PAPAPSPAPT PACRGAE GENBANK ID: B31848 VERSION B31848 GI:87005 1 MTCKNSQLER NIETIINTFH QYSVKLGEPD TLNQGEFKEL VRKDLQNFLK KENKNEKVIE 61 HIMEDLDTNA DKQLSFEEFI MLMARLTWAS HENNEEGDEG PGHHHKPGLG ECTP GENBANK ID: CAA38698.1 VERSION CAA38698.1 GI:35522 1 MPVNRLFPCF LQLLAGLALP AVFFQQWALS AGNGSSEVEV VFFQEVWGRS YCRALERLVD 61 VVSEYPSEVE HMFSFSCVSL LRCTGCCGDE NLHCVPVETA NVTMQLLKIR SGDRPSYVEL 121 TFSQHVRCEC RPLREKMKPE RCGDAVPRR GENBANK ID: AAA35789.1 VERSION AAA35789.1 GI:181971 1 MNFLLSWVHW SLALLLYLHH AKWSQAAPNA EGGGQNHHEV VKFMDVYQRS YCHFIETLVD 61 IFQEYPDEIE YIFKPSCVFL NRCGGCCNDE GLECVPTEES NITMQINRIK PHQGQHIGEM 121 SFLQHNKCEC RPKKDRARQE NPCGPCSERR KHLFVQDPQT CKCSCKNTDS RCKARQLELN 181 ERTCRCDKPR R GENBANK ID: AAA66062.1 VERSION AAA66062.1 GI:536898 1 MWKRWLALAL ALVAVAWVRA EEELRSKSKI CANVFCGAGR ECAVTEKGEF TCLCIEQCKP 61 HKRFVCGSNG KTYLNHCELH RDACLTGSKI QVDYDGHCKE KKSVSPSASP VVCYQSNRDE 121 LRRRIIQWLE AEIIFDGWFS KGSNYSEILD KYFKNFDNGD SRLDSSEFLK FVEQNETAIN 181 ITTYPDQENN KLLRGLCVDA LIELSDENAD WKLSFQEFLK CLNPSFNPPE KKCALEDETY 241 ADGAETEVDC NRCVCACGNW VCTANTCDGK NQKGAQTQTE EEMTRYVQEL QKHQETAEKT 301 KRVSTKEI GENBANK ID: AAA59872.1 VERSION AAA59872.1 GI:398038 1 MGWLPLLLLL TQCLGVPGQR SPLNDFQVLR GTELQHLLHA VVPGPWDEDV ADAEECAGRC 61 GPLMDCRAFH YNVSSHGCQL LFWTQRSPHT RLRRSGRCDL FQKKDYVRTC IMNNGVGYRG 121 TMATTVGGLP CQAWSHKFPN DHKYTFTLRN GLEENFCRNP DGDPGGFWCY TTDPAVRFQS 181 CGIKSCREAA CVWCNGEEYR GAVDRTESGR ECQRWQLQHP HQHPFEPGKF LDQGLDDNYC 241 RNPDGSERPW CYTTDPQIER EFCDLFRCGS EAQFRQEATT VSCFRGKGEG YRGTANTTTA 301 GVPCQRWDAQ IFHQHRFTPE KYACKDLREN FCRNPDGSEA PWCFTLRPGM RAAFCYQIRR 361 CTDDVRPQDC YHGAGEQYRG TVSKTRKGVQ CQRWSAETPH KPQFTFTSEP HAQLEENFCR 421 NPDGDSHGPW CYTMDPRTPF DYCALRRCAD DQPPSILDPP DQVQFENCGK RVDRLDQRRS 481 KLRVVGGHPG NSFWTVSLRN RQGQHFCGGS LVKEQWILTA RQCFSSCHMP LTGYEVWLGT 541 LFQNPQHGEP SLQRVPVAKM VCGPSGSQLV LLKLERSVTL NQRVALICLP PEWYVVFFGT 601 KCEIAGWGET KGTGNDTVLN VAFLNVTSNQ ECNIKHRGRV RESENCTEGL LADVGACEGD 661 YGGPLACFTH NCWVLEGIII PNRVCARSRW PAVFTRVSVF VDWIHKVMRL G GENBANK ID: P01579 VERSION P01579 GI:124479 1 MKYTSYILAF QLCIVLGSLG CYCQDPYVKE AENLKKYFNA GHSDVADNGT LFLGILKNWK 61 EESDRKIMQS QIVSFYFKLF KNFKDDQSIQ KSVETIKEDM NVKFFNSNKK KRDDFEKLTN 121 YSVTDLNVQR KAIHELIQVM AELSPAAKTC KRKRSQMLFR GRRASQ GENBANK ID: XP_035842.1 DEFINITION HOMO SAPIENS SMALL INDUCIBLE CYTOKINE A5 (RANTES) (SCYAS), MRNA. CDS 22..297 /CODON_START=1 1 ACAGCCTCTC CCACAGGTAC CATGAAGGTC TCCGCGGCAG CCCTCGCTGT CATCCTCATT 61 GCTACTGCCC TCTGCGCTCC TGCATCTGCC TCCCCATATT CCTCGGACAC CACACCCTGC 121 TGCTTTGCCT ACATTGCCCG CCCACTCCCC CGTGCCCACA TCAAGGAGTA TTTCTACACC 181 AGTGGCAAGT GCTCCAACCC AGCAGTCGTC TTTGTCACCC GAAAGAACCG CCAAGTGTGT 241 GCCAACCCAG AGAAGAAATG GGTTCGGGAG TACATCAACT CTTTGGAGAT GAGCTAGGAT 301 GGAGAGTCCT TGAACCTGAA CTTACACAAA TTTGCCTGTT TCTGCTTGCT CTTCTCCTAG 361 CTTGGGAGGC TTCCCCTCAC TATCCTACCC CACCCGCTCC TTGAAGGGCC CAGATTCTAC 421 CACACAGCAG CAGTTACAAA AACCTTCCCC AGCCTGGACC TGGTGGCTCA CGCCTGTAAT 481 CCCAGCACTT TGGGAGGGCA AGGTGGGTGG ATCACTTGAG GTCAGGAGTT CGAGACCAGC 541 CTGGCCAACA TGATGAAACC CCATCTCTAC TAAAAATACA AAAAATTAGC CGGGCGTGGT 601 AGCGGGCGCC TGTAGTCCCA GCTACTCGGG AGGCTGAGGC AGGAGAATGG CGTGAACCCG 661 GGAGGCGGAG CTTGCAGTGA GCCGAGATCG CGCCACTGCA CTCCAGCCTG GGCGACAGAG 721 CGAGACTCCG TCTCAAAAAA AAAAAAAAAA AAAAAAATAC AAAAATTAGC CGGGCGTGGT 781 GGCCCACGCC TGTAATCCCA GCTACTCGGG AGGCTAAGGC AGGAAAATTG TTTGAACCCA 841 GGAGGTGGAG GCTGCAGTGA GCTGAGATTG TGCCACTTCA CTCCAGCCTG GGTGACAAAG 901 TGAGACTCCG TCACAACAAC AACAACAAAA AGCTTCCCCA ACTAAAGCCT AGAAGAGCTT 961 CTGAGGCGCT GCTTTGTCAA AAGGAAGTCT CTAGGTTCTG AGCTCTGGCT TTGCCTTGGC 1021 TTTGCCAGGG CTCTGTGACC AGGAAGGAAG TCAGCATGCC TGTAGAGGCA AGGAGGGGAG 1081 GAACACTGCA CTCTTAAGCT TCCGCCGTCT CAACCCCTCA CAGGAGCTTA CTGGCAAACA 1141 TGAAAAATCG G GENBANK ID: CAA72079.1 DEFINITION H. SAPIENS MRNA FOR ESTROGEN SULFOTRANSFERASE. CDS 63..947 /CODON_START=1 1 GCCTTGAAGA GATATAAACT AGATCAATTT CTTTCACAGG ATCAACTAAA CAGTGTACCA 61 CAATGAATTC TGAACTTGAC TATTATGAAA AGTTTGAAGA AGTCCATGGG ATTCTAATGT 121 ATAAAGATTT TGTCAAATAT TGGGATAATG TGGAAGCGTT CCAGGCAAGA CCAGATGATC 181 TTGTCATTGC CACCTACCCT AAATCTGGTA CAACCTGGGT TAGTGAAATT GTGTATATGA 241 TCTATAAAGA GGGTGATGTG GAAAAGTGCA AAGAAGATGT AATTTTTAAT CGAATACCTT 301 TCCTGGAATG CAGAAAAGAA AACCTCATGA ATGGAGTAAA ACAATTAGAT GAGATGAATT 361 CTCCTAGAAT TGTGAAGACT CATTTGCCAC CTGAACTTCT TCCTGCCTCA TTTTGGGAAA 421 AGGATTGTAA GATAATCTAT CTTTGCCGGA ATGCAAAGGA TGTGGCTGTT TCCTTTTATT 481 ATTTCTTTCT AATGGTGGCT GGTCATCCAA ATCCTGGATC CTTTCCAGAG TTTGTGGAGA 541 AATTCATGCA AGGACAGGTT CCTTATGGTT CCTGGTATAA ACATGTAAAA TCTTGGTGGG 601 AAAAGGGAAA GAGTCCACGT GTACTATTTC TTTTCTACGA AGACCTGAAA GAGGATATCA 661 GAAAAGAGGT GATAAAATTG ATACATTTCC TGGAAAGGAA GCCATCAGAG GAGCTTGTGG 721 ACAGGATTAT ACATCATACT TCGTTCCAAG AGATGAAGAA CAATCCATCC ACAAATTACA 781 CAACACTGCC AGACGAAATT ATGAACCAGA AATTGTCGCC CTTCATGAGA AAGGGAATTA 841 CAGGAGACTG GAAAAATCAC TTTACAGTAG CCCTGAATGA AAAATTTGAT AAACATTATG 901 AGCAGCAAAT GAAGGAATCT ACACTGAAGT TTCGAACTGA GATCTAAGAA GGTCTT GENBANK ID: AAA63210.1 DEFINITION HUMAN KERATINOCYTE GROWTH FACTOR MRNA, COMPLETE CDS. CDS 446..1030 /CODON_START=1 1 ACGCGCTCAC ACACAGAGAG AAAATCCTTC TGCCTGTTGA TTTATGGAAA CAATTATGAT 61 TCTGCTGGAG AACTTTTCAG CTGAGAAATA GTTTGTAGCT ACAGTAGAAA GGCTCAAGTT 121 GCACCAGGCA GACAACAGAC ATGGAATTCT TATATATCCA GCTGTTAGCA ACAAAACAAA 181 AGTCAAATAG CAAACAGCGT CACAGCAACT GAACTTACTA CGAACTGTTT TTATGAGGAT 241 TTATCAACAG AGTTATTTAA GGAGGAATCC TGTGTTGTTA TCAGGAACTA AAAGGATAAG 301 GCTAACAATT TGGAAAGAGC AAGTACTCTT TCTTAAATCA ATCTACAATT CACAGATAGG 361 AAGAGGTCAA TGACCTAGGA GTAACAATCA ACTCAAGATT CATTTTCATT ATGTTATTCA 421 TGAACACCCG GAGCACTACA CTATAATGCA CAAATGGATA CTGACATGGA TCCTGCCAAC 481 TTTCCTCTAC AGATCATGCT TTCACATTAT CTGTCTAGTG GGTACTATAT CTTTAGCTTG 541 CAATGACATG ACTCCAGAGC AAATGGCTAC AAATGTGAAC TGTTCCAGCC CTGAGCGACA 601 CACAAGAAGT TATGATTACA TGGAAGGAGG GGATATAAGA GTGAGAAGAC TCTTCTGTCG 661 AACACAGTGG TACCTGAGGA TCGATAAAAG AGGCAAAGTA AAAGGGACCC AAGACATGAA 721 GAATAATTAC AATATCATGG AAATCAGGAC AGTGGCAGTT GGAATTGTGG CAATCAAAGG 781 GGTGGAAAGT GAATTCTATC TTGCAATGAA CAAGGAAGGA AAACTCTATG CAAAGAAAGA 841 ATGCAATGAA GATTGTAACT TCAAAGAACT AATTCTGGAA AACCATTACA ACACATATGC 901 ATCAGCTAAA TGGACACACA ACGGAGGGCA AATGTTTCTT GCCTTAAATC AAAAGCCCAT 961 TCCTGTAAGA GGAAAAAAAA CGAAGAAAGA ACAAAAAACA GCCCACTTTC TTCCTATGGC 1021 AATAACTTAA TTGCATATGG TATATAAAGA ACCCAGTTCC AGCAGGGAGA TTTCTTTAAG 1081 TGGACTGTTT TCTTTCTTCT CAAAATTTTC TTTCCATTTA TTTTTTAGTA ATCAAGAAAG 1141 GCTGGAAAAA CTACTGAAAA ACTGATCAAG CTGGACTTGT GCATTTATGT TTGTTTTAAG 1201 ACACTGCATT AAAGAAAGAT TTGAAAAGTA TACACAAAAA TCAGATTTAG TAACTAAAGG 1261 TTGTAAAAAA TTGTAAAACT GGTTGTACAA TCATGATGTT AGTAACACTA ATTTTTTTCT 1321 TAAATTAATT TACCCTTAAG AGTATGTTAG ATTTGATTAT CTGATAATGA TTATTTAAAT 1381 ATTCCTATCT GCTTATAAAA TGGCTGCTAT AATAATAATA ATACAGATGT TGTTATATAA 1441 CCTATATCAG ACCTACAGGC TTCTGGCAGG ATTTGTCAGA TAATCAACCC ACACTAACTA 1501 TCGAAAATGA GCAGCATTTT AAATGCTTTC TAGTGAAAAA TTATAATCTA CTTAAACTCT 1561 AATCAGAAAA AAAATTCTCA AAAAAACTAT TATGAAAGTC AATAAAATAG ATAATTTAAC 1621 AAAAGTACAG GATTAGAACA TGCTTATACC TATAAATAAG AACAAAATTT CTAATCCTGC 1681 TCAAGTGGAA AGGGTATTGC TAAAAGGATG TTTCCAAAAA TCTTGTATAT AAGATAGCAA 1741 CAGTGATTGA TGATAATACT GTACTTCATC TTACTTGCCA CAAAATAACA TTTTATAAAT 1801 CCTCAAAGTA AAATTGAGAA ATCTTTAACT TTTTTTCAAC TAACATAATC TATCTTTGTA 1861 TAATTCATAT TTGGGAATAT GGCTTTTAAT AATGTTCTTC CCACAAATAA TCATGCTTTT 1921 TTCCTATGGT TACAGCATTA AACTCTATTT TAAGTTGTTT TTGAACTTTA TTGTTTTGTT 1981 ATTTAAGTTT ATGTTATTTA TAAAAAAAAA ACCTTAATAA GCTGTATCTG TTTCATATGC 2041 TTTTAATTTT AAAGGAATAA CAAAACTGTC TGGCTCAACG GCAAGTTTCC CTCCCTTTTC 2101 TGACTGACAC TAAGTCTACC ACACAGCACT TGGGCCAGCA AATCCTCGAA GCAGACAAAA 2161 ATAAGAGCCT GAAGCAATGC TTACAATAGA TGTCTCACAC AGAACAATAC AAATATGTAA 2221 AAACTCTTTC ACCACATATT CTTGCCAATT AATTGGATCA TATAAGTAAA ATCATTACAA 2281 ATATAAGTAT TTACAGGATT TTAAAGTTAG AATATATTTG AATGCATGGG TAGAAAATAT 2341 CATATTTTAA AACTATGTAT ATTTAAATTT AGTAATTTTC TAATCTCTAG AAATCTCTGC 2401 TGTTCAAAAG GTGGCAGCAC TGAAAGTTGT TTTCCTGTTA GATGCCAAGA GCACAATGCC 2461 CAAAATAGAA GATGCAGTTA AGAATAAGGG GCCCTGAATG TCATGAAGGC TTGAGGTCAG 2521 CCTACAGATA ACAGGATTAT TACAAGGATG AATTTCCACT TCAAAAGTCT TTCATTGGCA 2581 GATCTTGGTA GCACTTTATA TGTTCACCAA TGGGAGGTCA ATATTTATCT AATTTAAAAG 2641 GTATGCTAAC CACTGTGCTT TTAATTTCAA AATATTTGTC ATTCAAGTCC CTTTACATAA 2701 ATAGTATTTC GTAATACATT TATAGATGAG ACTTATATGA AAAGGCTAGG TCAACAAAAA 2761 CAATAGATTC ATTTAATTTT CCTGTGGTTA ACCTATACGA CCAGGATGTA GAAAACTAGA 2821 AAGAACTGCC CTTCCTCACA TATACTCTTG CGAGAGAGCA TGAATGCTAT TCTGAACTAT 2881 CACCTGATTC AAGGACTTTG CTAGCTAGGT TTTGAGGTCA GGCTTCAGTA ACTGTAGTCT 2941 TGTGAGCATA TTGAGGGCAG AGGAGGACTT AGTTTTTCAT ATGTGTTTCC TTAGTGCCTA 3001 GCAGACTATC TGTTCATAAT CAGTTTTCAG TGTGAATTCA CTGAATGTTT ATAGACAAAA 3061 GAAAATACAC ACTAAAACTA ATCTTCATTT TAAAAGGGTA AAACATGACT ATACAGAAAT 3121 TTAAATAGAA ATAGTGTATA TACATATAAA ATACAAGCTA TGTTAGGACC AAATGCTCTT 3181 TGTCTATGGA GTTATACTTC CATCAAATTA CATAGCAATG CTGAATTAGG CAAAACCAAC 3241 ATTTAGTGGT AAATCCATTC CTGGTAGTAT AAGTCACCTA AAAAAGACTT CTAGAAATAT 3301 GTACTTTAAT TATTTGTTTT TCTCCTATTT TTAAATTTAT TATGCAAATT TTAGAAAATA 3361 AAATTTGCTC TAGTTACACA CCTTTAGAAT TCTAGAATAT TAAAACTGTA AGGGGCCTCC 3421 ATCCCTCTTA CTCATTTGTA GTCTAGGAAA TTGAGATTTT GATACACCTA AGGTCACGCA 3481 GCTGGCTAGA TATACACCTG TCACAAGAGT CTAGATCAGT TAGCACATGC TTTCTACTCT 3541 TCGATTATTA GTATTATTAG CTAATGGTCT TTGGCATGTT TTTGTTTTTT ATTTCTGTTG 3601 AGATATAGCC TTTACATTTG TACACAAATG TGACTATGTC TTGGCAATGC ACTTCATACA 3661 CAATGACTAA TGTATACTGT GATGATTTGA CTCAAAAGGA GAAAAGAAAT TATGTAGTTT 3721 TCAATTCTGA TTCCTATTCA CCTTTTGTTT ATGAATGGAA AGCTTTGTGC AAAATATACA 3781 TATAAGCAGA CTAAGCCTTT TAAAAATGTT CTTTGAAAGA TAAAATTAAA TACATGAGTT 3841 TCTAACAATT ACA GENBANK ID: AAA62202.1 DEFINITION HUMAN ENDOTHELIAL-MONOCYTE ACTIVATING POLYPEPTIDE II MRNA, COMPLETE CDS. VERSION U10117.1 GI:498909 MRNA 1..1057 CDS 50..988 /CODON_START=1 1 GGAACCCGTG GTCCTCCGCT TCATGATTTT CTGCCGTCTC TTGGCAAAAA TGGCAAATAA 61 TGATGCTGTT CTGAAGAGAC TGGAGCAGAA GGGTGCAGAC GCAGATCAAA TCATTGAATA 121 TCTTAAGCAG CAAGTTTCTC TACTTAAGGA GAAAGCAATT TTGCAGGCAA CTTTGAGGGA 181 AGAGAAGAAA CTTCGAGTTG AAAATGCTAA ACTGAAGAAA GAAATTGAAG AACTGAAACA 241 AGAGCTAATT CAGGCAGAAA TTCAAAATGG AGTGAAGCAA ATAGCATTPC CATCTGGTAC 301 TCCACTGCAC GCTAATTCTA TGGTTTCTGA AAATGTGATA CAGTCTACAG CAGTAACAAC 361 CGTATCTTCT GGTACCAAAG AACAGATAAA AGGAGGAACA GGAGACGAAA AGAAAGCGAA 421 AGAGAAAATT GAAAAGAAAG GAGAGAAGAA GGAGAAAAAA CAGCAATCAA TAGCTGGAAG 481 TGCCGACTCT AAGCCAATAG ATGTTTCCCG TCTGGATCTT CGAATTGGTT GCATCATAAC 541 TGCTAGAAAA CACCCTGATG CAGATTCTTT GTATGTCGAA GAAGTAGATG TCGGAGAAAT 601 AGCCCCAAGG ACAGTTGTCA GTGGCCTGGT GAATCATGTT CCTCTTGAAC AGATGCAAAA 661 TCGGATGGTG ATTTTACTTT GTAACCTGAA ACCTGCAAAG ATGAGGGGAG TATTATCTCA 721 AGCAATGGTC ATGTGTGCTA GTTCACCAGA GAAAATTGAA ATCTTGGCTC CTCCAAATGG 781 GTCTGTTCCT GGAGACAGAA TTACTTTTGA TGCTTTCCCA GGAGAGCCTG ACAAGGAGCT 841 GAATCCTAAG AAGAAGATTT GGGAGCAGAT CCAGCCTGAT CTTCACACTA ATGATGAGTG 901 TGTGGCTACA TACAAAGGAG TTCCCTTTGA GGTGAAAGGG AAGGGAGTAT GTAGGGCTCA 961 AACCATGAGC AACAGTGGAA TCAAATAAAA TGCTTCCACT ACCAAAAGAC ATTAGAGAAA 1021 ACCTTAAAAG TAATAAAGAG AAATATATTT GTCACTT GENBANK ID: P17936 DEFINITION HUMAN ACIDIC FIBROELAST GROWTH FACTOR MRNA, 5′END, CLONE LA64BDA-MJ36. CDS 358..>478 /CODON_START=1 1 TCCCCAAGGC TAGGAGGCCA ACCTACTAAC AGGTGGGTGG GTATGGTGTG TGGTTTCACT 61 CAGTTCTTCT CATGGGGTTT CTCTGAGCTC CATTCATACC AGAAAGGGAG CAGGAGAGAG 121 AGGACAAGTG GATCCAACAG CCTTCGCTCC AGGGGAATCA GGGCATCGCC TCCTTTTCTG 181 GGAGGACACT CCCTTCTGAT GGTGAATGGG AACTCCCTTC CTCCTGCAGC AGCCTGCCTG 241 CAGCTGTCCT GGTAGAACAG TGTGGACATT GCAGAAGCTG TCACTGCCCC AGAAAGAAAG 301 CACCCCAGAG CCAAGGCAAA GAGTCTTGAA AGCGCCACAA GCAGCAGCTG CTGAGCCATG 361 GCTGAAGGGG AAATCACCAC CTTCACAGCC CTGACCGAGA AGTTTAATCT GCCTCCAGGG 421 AATTACAAGA AGCCCAAACT CCTCTACTGT AGCAACGGGG GCCACTTCCT GAGGATCC GENBANK ID: U76376. 1 VERSION U76376.1 GI:1923234 MCPCPLHRGRGPPAVCACSAGRLGLRSSAAQLTAARLKALGDEL HQRTMWRRRARSRRAPAPGALPTYWPWLCAAAQVAALAAWLLGRRNL GENBANK ID: Y00638 VERSION Y00638.1 GI:34280 MYLWLKLLAFGFAFLDTEVFVTGQSPTPSPTGLTTAKNPSVPLS SDPLPTHTTAFSPASTFERENDFSETTTSLSPDNTSTQVSPDSLDNASAFNTTGVSSV QTPHLPTHADSQTPSAGTDTQTFSGSAANAKLNFTPGSNAISDVPGERSTASTFPTDP VSPLTTTLSLAHHSSAALPARTSNTTITANTSDAYLNASETTTLSPSGSAVISTTTIA TTPSKPTCDEKYANITVDYLYNKETKLFTAKLNVNENVECGNNTCTNNEVHNLTECKN ASVSISHNSCTAPDKTLILDVPPGVEKFQLHDCTQVEKADTTICLKWKNIETFTCDTQ NITYRFQCGNNIFDNKEIKLENLEPEHEYKCDSEILYNNHKFTNASKIIKTDFGSPGE PQIIFCRSEAAHQGVITWNPPQRSFHNFTLCYIKETEKDCLNLDKNLIKYDLQNLKPY TKYVLSLHAYIIAKVQRNGSAAMCHFTTKSAPPSQVWNMTVSMTSDNSMHVKCRPPRD RNGPHERYHLEVEAGNTLVRNESHKNCDFRVKDLQYSTDYTFKAYFHNGDYFGEPFIL HHSTSYNSKALIAFLAFLIIVTSIALLVVLYKIYDLHKKRSCNLDEQQELVERDDEKQ LMNVEPIHADILLETYKRKIADEGRPFLAEFQSIPRVFSKFPIKEARKPFNQNKNRYV DILPYDYNRVELSEINGDAGSNYINASYIDGFKEPRKYIAAQGPRDETVDDFWRMIWE QKATVIVNVTRCEEGNRNKCAEYWPSMEEGTRAFGDVVVKINQHKRCPDYIIQKLNIV NKKEKATGREVTHIQFTSWPDHGVPEDPHLLLKLRRRVNAFSNFFSGPIVVHCSAGVG RTGTYIGIDAMLEGLEAENKVDVYGYVVKLRRQRCLMVQVEAQYILIHQALVEYNQFG ETEVNLSELHPYLHNNKKRDPPSEPSPLEAEFQRLPSYRSWRTQHIGNQEENKSKNRN SNVIPYDYNRVPLKHELEMSKESEHDSDESSDDDSDSEEPSKYINASFIMSYWKPEVM IAAQGPLKETIGDFWQMIFGRKVKVIVNLTELKHGDDEICAQYWGEGKQTYGDIEVDL KDTDKSSTYTLRVFELRHSKRKDSRTVYQYQYTNWSVEDLPAEPKELISNIQVVKQKL PQKNSSEGNKHHKSTPLLTHCRDGSQQTCIFCALLNLLESAETEEVVDIFQVVRALRK ARLGMVSTFEQYQFLYDVIASTYPAQNQQVKKNNHQEDKIEFDNEVDKVKQDANCVNP LGAPEKLPEAKEQAEGSEPTSGTEGPENSVNGPASPALNQGS GENBANK ID: AF001383.1 VERSION AF001383.1 GI:2199534 MAEMGSKGVTAGKIASNVQKKLTRAQEKVLQKLDKADETKDEQF EQCVQNFNKQLTECTRLQKDLRTYLASVKANHEASKKLNECLQEVYEPDWFGRDEANK IAENNDLLNMDYHQKLVDQALLTMDTYLGQFPDIKSRIAKRQRKLVDYDSARHHYESL QTAKKKDEAKIAKAEEELIKAQKVFEENNVDLQEELPSLWNSRVGFYVNTEQSIAGLE ENFHKEMSKLNQNLNDVLVGLEKQNGSNTFTVKAQPSDNAPAKGNKSPSPEDGSPAAT PEIRVNHEPEPAGGATPGATLFKSPSQLRKGPPVPPPFKHTPSKEVKQEQILSLFEDT FVPEISVTTPSQPAEASEVAGGTQPAAGAQEPCETAASEAASSSLPAVVVETFPATVN GTVEGGSGAGRLDLPPGFMFKVQAQEDYTATDTDELQLKAGDVVLVIPFQNFEEQDEG WLMGVKESDWNQHKELEKCRGVFFENFTERVP GENBANK ID: XM_038595.3 VERSION XM_038595.3 GI:18590923 MAPPSEETPLIPQRSCSLLSTEAGALHVLLPARGPGPPQRLSES FGDHLAEDLCVQAAKASGILPVYRSLFALATEDLSCWFPPSHIESVEDASTQVLLYRI REYEPNWEGLEKCNREGLRKDLASAILDLPVLEHLFAQERSDLVSGRLPVGLSLKEQG ECLSLAVLDLARMAREQAQRPGELLKTVSYKACLPPSLRDLIQGLSPVTRRRIRRTVR RALRRVAACQADRHSLMAKYIMDLERLDPAGAAETEHVGLPGALGGHDGLGLLRVAGD GGIAWTQGEQEVLQPECDEFEIVDISIKQAPRVGPAGEHRLVTVTRTDNQILEAEFPG LPEALSFVALVDGYFRLTTDSQHEFCKEVAPPRLLEEVAEQCHGPITLDFAINKLKTG GSRPGSYVLRRSPQDEDSELLTVCVQNPLGPDYKGCLIRRSPTGTELLVGLSRPHSSL RELLATCNDGGLHVDGVAVTLTSCCIPRPKEKSNLIVVQRGHSPPTSSLVQPQSQVQL SQMTFEKIFADSLEWHENLGHGSETKIYRGCRHEVVDDEARKTEVLLKVMDAKHKNCM ESFLEAASLMSQVSYRHLVLLHGVCNAGDSTNVQEFVHLGAIDNYLRKRCHLVPASWK LQVVKQLAYALNYLEDKGLPNCNVSARKVLLAREGADGSPEFIELSDPCVSPAVLSLE MLTDRIPWVAPECLREAQTLSLEADKNGFGATVWEVFSGVTNPISALDPAKKLQFYED RQQLPAPKNTELALLIQQCNAYEPVQRPSERAVIRDLNSLISSDVELLSDPTPGALAP RDGLWNGAQLYACQDPTIFEERHLKYISQLGKGNEQSVELCRVDFLGDNTGALVAVKQ LQHSGPDQQRDEQREIQILKALHSDFIVKYRGVSYGPGRQSLRLVNEYLPSGCLRDEL QRHRARLDASRLLLYSSQICKGNEYLGSRRCVHRDLAARNILVESEAHVKIADFGLAK LLPLDKDYYVVREPGQSPIFWYAFESLSDNIESRQSDVWSFGVVLVELFTYCDKSCSP SAEFLRMNGCERDVPALCRLLELLEEGQRLPAPPACPAEVEELMKLCWAPSPQDRPSF SALDPQLDNLNSCSRGCETSAFTANPEGKHESLSFS GENEANK ID: M32292.1 VERSION M32292.1 GI:181492 MENSLRCVWVPKLAEVLECASLLSAHLQVTCFQIKAETALRELS EPSDAVTMRCGNVLLDCSAESDRGVFVIKWKKDGIHLALCMDERKQQLSNCSLLIQNI LHSREHKPDEGLYQCEASLGDSGSIISRTAKVAVAGPLRELSQTESVTAENGDTVLLK CEVIGEPMPTINNQKNQQDLTPIPGDSRVVVLPSGALQISRLQPGDIGIVRCSARNPA SSRTGNEAEVRICSDPGLHRQLYFLQRPSNVVAIEGKDAVLECCVSGVPPPSFTWLRG EEVIQLRSKKYSLLGGSNLLISNVTDDDSGMVTCVVTYKNENISASAELTVLVPPWFL NHPSNLYAYESNDIEFECTVSCKPVPTVNWMKNCDVVIPSDYFQIVCCSNLRILGVVK SDEGEYQCVAENEAGNAGTSAQLIVPKPAIPSSSVLPSAPRDVVPVLVSSREVRLSWR PPAEAKCNIQTETVFFSREGDNRERALNTTQPGSLQLTVCNLKPEANVTFRVVAYNEW GPGESSQPIKVATQPELQVPGPVENLQAVSTSPTSILITWEPPAVANGPVQCVRLFCT EVSTGKEQNIEVDGLSYKLEGLKKFTEYSLRELAYNRYGPGVSTDDITVVTLSDVPSA PPQNVSLEVVNSRSIKVSWLPPPSGTQNGEITGYKIRHRKTTRRGENETLEPNNLWYL FTGLEKGSQYSFQVSANTVNCTCPPSNWYTAETPENDLDESQVPDQFSSLHVRPQTNC IIMSWTPPLN GENBANK ID: X06318 VERSION X06318.1 GI:35488 MADPAACFFPSEGEESTVRFARKGALRQKNVHEVKNHKETAREF KQPTFCSHCTDFIWCFGKQGEQCQVCCFVVHKRCNEFVTFSCPGADKGPASDDPRSKH KEKIHTYSSPTECDHCGSLLYGLIHQGMKCDTCMNNVHKRCVNNVPSLCCTDHTERRG RIYIQAHIDRDVLIVLVRDAKNLVPNDPNGLSDPYVKLELIPDPKSESKQETETIKCS LNPEWNETFRFQLKESDKDRRLSVETWDWDLTSRNDFMGSLSFGISELQKASVDGWFK LLSQEEGEYFNVPVPPEGSEANEELRQKFERAKISQGTKVFEEKTTNTVSKFDNNGNR DRMKLTDFNFLMVLGKGSFGKVMLSERKGTDELYAVKTLKKDVVTQDDDVECTMVEKR VLALPGKPPFLTQLHSCFQTMDRLYFVMEYVNGGDLNYNIQQVGRFKEPHAVFYAAEI AIGLFFLQSKGIIYRDLKLDNVNLDSEGHIRIADFCNCKENINDGVTTKTFCGTPDYI APEIIAYQFYGKSVDWWAFGVLLYEMLAGQAFFEGEDEDELFQSIMEHNVAYFKSMSK EAVAICKGLMTKHFGKRLGCGPEGERDIKEHAFFRYIDWEKLERKEIQFPYKPKARDK RDTSNFDKEFTRQPVELTFTDKLFIMNLDQNEFAGFSYTNPEFVINV GENBANK ID: J04122.1 VERSION J04132.1 GI:623041 MKWKALFTAAILQAQLFITEAQSFGLLDPELCYLLDGILFIYGV ILTALFLRVKFSRSAEPPAYQQGQNQLYNELNLGRREEYDVLDKRRGRDPEMGGKPRR KNPQEGLYNELQKDKMAEAYSEIGNKGERRRGKGHDGLYQGLSTATKDTYDALHNQAL PPR GENBANK ID: 004313.1 VERSION 004313.1 GI:453368 MDALQLANSAFAVDLFKQLCEKEPLGNVLFSPICLSTSLSLAQV GAKGDTANEIGQVLHFENVKDIPFGFQTVTSDVNKLSSFYSLKLIKRLYVDKSLNLST EFISSTKRPYAKELETVDFKDKLEETKGQINNSIKDLTDGHFENILADNSVNDQTKIL VVNAAYFVGKWNKKFPESETKECPFRLNKTDTKPVGMNNMEATFCMGNIDSINCKIIE LPFQNKHLSMFILLPKDVEDESTGLEKIEKQLNSESLSQWTNPSTMANAKVKLSIPKF KVEKMIDPKACLENLGLKHIFSEDTSDFSGNSETKGVALSNVINKVCLEITEDGGDSI EVPGARILQHKDELNADHFFIYIIRHNKTRNIIFFGKFCSP GENBANK ID: X68968.1 VERSION X68968.1 GI:452315 MDEPSPLAQFLELNQHSRFIIGSVSEDNSEGEISNLVKLDLLEE KEGSLSPASVGSDTLSDLGISSLQDGLALHIRSSNSGLELVKQGRDRKKIDSQRDFTV ASPAEFVTRFGGNKVIEKVLIANNGIAAVECMRSIRRWSYENFRNERAIRFVVMVTPE DLKANAEYIKMADHYVPVFGGFNNNNYANVELILDIAKRIFVQAVWAGWGHASENPKL PELLLKNGIAFNGPPSQANNALGDKIASSIVAQTAGIFTLFWSGSGLRVDWQENDFSK RILNVFQELYEKGYVKDVDDGLQAAEEVGYPVNIKASEGGGGEGIRKVNNAGDFPNLF RQVQAEVPGSPIFVMRLAKQSRHLEVQILADQYGNAISLFGRDCSVQRRHQKIIEEAP ATIATFAVFEHMEQCAVKLAKMVGYVSAGTVEYLYSQDRSFYFLELNPRLQVEHFCTE MVADVNLFAAQLQIAMGIFLYRIKDIRMMYGVSFWGDSFIDFEDSAHVFCPRGHVIAA RITSENFDEGFKPSSGTVQELNFRSNKNVWGYFSVAAAGGLHEFADSQFGHCFSWGES REEAISNNVVALKELSIRGDFRTTVEYLIKLLETESFQMNRIDTGWLDRLIAEKVQAE RPDTMLGVVCGALHVADVSLRNSVSNFLHSLERGQVLEAHTLLNTVDVELIYEGVKYV LKVTRQSPNSYVVINNGSCVEVDVHRLSDGGLLLSYDGSSYTTYNKEEVDRYRITIGN KTCVFEKENDPSVMRSFSAGKLIQYIVEDGGHVLAGQCYAEIEVMKMVMTLTAVESGC IHYVKRPGAALDPGCVLAKMQLDNPSKVQQAELHTGSLPRIQSTALRGEKLHRVFHYV LDNLVNVMNGYCLFDFFSSSKVKDWVERLNKTLRDPSLPLLELQDIMTSVSGRIPPNV EKSIKKEMAQYASNITSVLCQFPSQQIANILDSHAATLNRKSEREVFFNNTQSIVQLV QRYRSGIRGHMKAVVMDLLRGYLRVETQFQNGHYDKCVFALREENKSDMNTVLNYIFS HAQVTKKNLLVTMLIDQLCGRDPTLTDELLNILTELTQLSKTTNAKVALRARQVLIAS HLPSYELRHNQVESIFLSAIDMYGHQFCIENLQKLILSEISIFDVLPNFFYNSNQVVR MAALEVYVRRAYIAYELNSVQHRQLKDNTCVVEFQFNLPTSNPNRGNIPTLNRMSFSS NLNHYGMTHVASVSDVLLDNSFTPPCQRMCGMVSFRTFEDFVRIFDEVNGCFSDSPPQ SPTFPEAGHTSLYDEDKVPRDEPIHILNVAIKTDCDIEDDRLAANFREFTQQNKATLV DHGIRELTFLVAQKDFRKQVNYEVDRRFHREFPKFFTFRARDKFEEDRIYRELEPALA FQLELNRMRNFDLTAIPCANEKMHLYLGAAKVEVGTEVTDYRFFVRAIIRHSDLVTKE ASFEYLQNEGERLLLEANDELEVAFNNTNVRTDCNHIFLNFVPTVIMDFSKIEESVRY MVMRYGSRLWKLRVLQAEVKINIRQTTTGSAVPIRLFITNESGYYLDISLYKEVTDSR SGNIMFHSFGNKQGFQHGNLINTPYVTEDLLQAKREGAQTLGTTYIYDFFEMFRQALF KLWGSPDKYPKDILTYTELVLDSQGQLVENNRLFGGNEVGNVAFKMRFKTQEYFEGRD VIVIGNDITFRIGSFGPGEDLLYLRASEMARAEAIFKIYVAANSGARIGMAEEIKHMF HVAWVDPEDFHKGFKYLYLTPQDYTRISSLNSVHCKHIEEGGESRYMITDIIGKDDGL GVENLRGSGMIAGESSLAYEEIVTISLVTCRAIGIGAYLVRLGQRVIQVENSHIILTG ASALNKVLGREVYTSNNQLGGVQINNYNGVSEITVPDDFEGVYTILEWLSYMPKDNHS PVPIITPTDPIDREIEFLFSRAPYDPRWNLAGRFHFTLKGTWQSGFFDHGSFKEIMAP WAQTVVTGRARLGGIPVGVIAVETRTVEVAVPADPANLDSEAKIIQQAGQVWFPDSAY KTAQAIKDFNREKLFLMIEANWRGFSGGNKDNYDQVLRFGAYTVDGLRQYKQPTLIYI RPMRELRGGSWVVIDATINFLCIENYADKESRGGVLEFEGTVEIKFRKEDLIKSMRRI DPAYKKLNEQLGEPDLSDKDRKDLEGRLKAREDLLLPIYHQVAVQFADFHDTPGEMLE KGVISDILEWKTARTFLYWRLRRLLLEDQVKQEILQASGELSEVHIQSMLRRWFVETE GAVRAYLWDNNQVVVQWLEQHWQAGDGPRSTIRENITYLKHDSVLKTIRGLVEENPEV AVDCVIYLSQHISFAERAQVVHLLSTMDSPAST GENBANK ID: L03840.1 VERSION L03840.1 GI:182570 MRLLLALLGVLLSVPGPPVLSLEASEEVELEPCLAPSLEQQEQE LTVALGQPVRLCCGRAERGGHWYKEGSRLAPAGRVRGWRGRLEIASELFEDAGRYLCL ARGSMIVLQNLTLITGDSLTSSNDDEGPKSNRDPSNRNSYPQQAPYNTHPQRMEKKLH AVPAGNTVKFRCFAAGNPTPTIRWLKGGQAFHGENRIGGIRLRHQEWSLVMESVVPSD RGTYTCLVENAVGSIRYNYLLDVLERSPHRPILQAGLPANTTAVVGSDVELLCKVYSD AQPHIQWLKHIVINGSSFGADGFPYVQVLKTADINSSEVEVLYLRNVSAEDAGEYTCL AGNSIGLSYQSAWLTVLPEEDPTWTAAAPEARYTDIILYASGSLALAVLLLLAGLYRG QALNGRHPRPPATVQKLSRFPLARQFSLESGSSGKSSSSLVRGVRLSSSGPALLAGLV SLDLPLDPLWEFPRDRLVLGKPLGEGCFGQVVRAEAFGMDPARPDQASTVAVKMLKDN ASDKDLADLVSEMEVMKLIGRHENIINLLGVCTQEGPLYVIVECAAKGNLREFLRARR PPGPDLSPDGPRSSEGPLSFPVLVSCAYQVARGNQYLESRKCIHRDLAARNVLVTEDN VMKIADFGLARGVHNIDYYKKTSNGRLPVKWMAPEALFDRVYTHQSDVWSFGILLWEI FTLGGSPYPGIPVEELFSLLREGHRMDRFFHCPFELYGLMRECWHAAPSQRPTFKQLV EALDKVLLAVSEEYLDLRLTFGPYSPSGGDASSTCSSSDSVFSHDPLPLGSSSFPFGS GVQT GENBANK ID: AF043342.1 VERSION AF043342.1 GI:2905633 VRSSSRTPSDKPVANVVANPQAEGQLQWLNRRANALLANGVELR DNQLVVPSEGLYLIYSQVLFKGQGCPSTHVLLTHITSRIAVSYQTKVNLLSAIKSPCQ RETPRGAEAKPWYEPIYLCGVFQLEKGDRLSAEINRPDYLDFAESGQVYFGITAL GENBANK ID: NM_000735.2 VERSION NM_000735.2 GI:10800407 MDYYRKYAAIFLVTLSVFLNVLNSAPDVQDCPECTLQENPFFSQ PGAPILQCMGCCFSRAYPTPLRSKKTNLVQKNVTSESTCCVAKSYNRVTVN0GFKVEN HTACNCSTCYYNKS GENBANK ID: M83533.1 VERSION M83533.1 GI:178541 LRKHNIETYLIKQPEDSLLSLPEDIVKESVSSSDRRNSGATFTE GSWSPELPFDNIVGKQNTLAALTRNSINLLPNHLAQALHVQSGPEEINKRIEHTIDLR SGDKLRRENIKPFSLNFKDSSLENKYSQMRDEVFKSNLVCAFIVLLFITAIQSLLPSS RVMPMTIQFSILIMLHSALVLITTAEDYKCLPLILRKTCCWINETYLARNVIIFASIL INFLGAILNILWCDFDKSIPLKNLTFNSSAVFTDICSYPEYFVFTGVLANVTCAVFLR LNSVLKLAVLLIMIAIYALLTETVYA0LFLRYDNLNESGEDFLGTKEVSLLLMANFLL AVFYHGQQLEYTARLDFLWRVQAKEEINEMKELREHNENMLRNILPSHVARNELEKDR DNEELYSQSYDAVGVMFASIPGFADFYSQTEMNNQGVECLRLLNEIIADFDELLGEDR FQDIEKIKTIGSTYNAVSGLSPEKQQCEDKWGHLCALADFSLALTESIQEINKHSFNN FELRIGISNGSVVAGVIGAKKPQYDIMGKTVNLASRMDSTGVSGRIQVPEETYLILKD QGFAFDYRGEIYVEGISEQEGKIKTYFLLGRVQPNPFILPPRRLPGQYSLAAVVLGLV QSLNRQRQKQLLNENNNTGIIKGNYNRRTLLSPSGTEPGAQAEGTDKSDLP GENBANK ID: M31767.1 VERSION M31767.1 GI:181615 MDKDCEMKRTTLDSPLGKLELSGCEQGLNEIKLLGKGTSAADAV EVPAPAAVLGGPEPLMQCTAWLNAYFHQPEAIEEFPVPALHHPVFQQESFTRQVLWKL LKVVKFGEVISYQQLAALAGNPKATRAVGGAMRGNPVPILIPCHRVVCSSGAVGNYSG GLAVKENLLANEGNRLGKPGLGGSSGLAGAWLKGAGATSGSPPAGRN GENBANK ID: X14723 VERSION X14723.1 GI:30250 MMKTLLLFVGLLLTWESGQVLGDQTVSDNELQEMSNQGSKYVNK EIQNAVNGVKQTKTLIEKTNEERKTLLSNLEEAKKKKEDALNETRESETKLKELPGVC NETMMALWEECKPCLKQTCMKFYARVCRSGSGLVGRQLEEFLNQSSFFYFWNNGDRID SLLENDRQQTHMLDVMQDHFSRASSIIDELFQDRFFTREPQDTYHYLPFSLPHRRPHF FFPKSRIVRSLNPFSPYEPLNFHAMFQPFLEMTHEAQQAMDIHFESPAFQNPPTEFIR EGDDDRTVCREIRHNSTGCLRMKDQCDKCREILSVDCSTNNPSQAKLRRELDESLQVA ERLTRKYNELLKSYQWKMLNTSSLLEQLNEQFNWVSRLANLTQGEDQYYLRVTTVASH TSDSDVPSGVTEVVVKLFDSDPITVTVEVEVSRKNFKFMETVAEKALQEYRKKHREE GENBANK ID: X04391.1 VERSION X04391.1 GI:37186 MPMGSLQPLATLYLLGNLVASCLGRLSWYDPDFQARLTRSNSKC QGQLEVYLKDGWHMVCSQSWGRSSKQWEDESQASKVCQRLNCGVPLSLGPFLVTYTPQ SSIICYGQLGSFSNCSESRNDMCESLGLTCLEPQKTTFFTTRPPPTTTPEPTAPPRLQ LVAQSGGQHCAGVVEFYSGSLGGTISYEAQDKTQDLENFLCNNLQCGSFLKHLPETEA GRAQDPGEFRENQPLPIQWKIQNSSCTSLEHCFRKIKPQKSGRVLALLCSGFQPKVQS RLVGGSSICEGTVEVRQGAQWAALCDSSSARSSLRWEEVCREQQCGSVNSYRVLDAGD PTSRGLFCFHQKLSQCEELWERNSYCKKVFVTCQDPNPAGLAAGTVASIILALVLLVV LLVVCGPLAYKKLVKKFRGKKQRQWIGPTGNNQNNSFHRNETATVRSHAENPTASHVD NEYSQFPRNSRLSAYFALEGVLNRSSNQPDNSSDSDYDLHGAQRL GENBANK ID: S78187.1 VERSION S78187.1 GI:243485 MEVPQPEPAPGSALSPAGVCGGAQRPGHLPGLLLGSHGLLGSPV RAAASSFVTTLTQTMHDLAGLGSRSRLTELSLSRRASESSLSSESSESSDAGLCMDSP SPMDPHMAEQTFEQAIQAASRIIRNEQFAIRRFQSNPVRLLGHSPVLRNITNSQAPDG RRKSEAGSGAASSSGEDKENDGFVFKMPWKPTHPSSTHALAEWASRREAFAQRPSSAP DLMCLSPDRKNEVEELSPLALGRFSLTFAEGDTEEDDGFVDILESDLKDDDAVPPGME SLISAPLVKTLEKEEEKDLVMYSKCQRLFRSFSNPCSVIRPILKRLERPQGRDTPVQN KRRRSVTPPEEQQEAEEEKARVLRSKSLCHDEIENDLLSDHRELIGDYSKAFLLQTVD GKHQDLKYISPETNVALLTGKFSNIVDKFVIVDCRYPYEYEGGHIKTAVNLPLERDAE SFLLKSPIAPCSLDKRVILIFNCEFSSERGPRMCRFIRERDRAVNDYFSLYYPEMYIL KGGYKEFFPQHPNFCEPQDYRPNNHEAFKDELKTFRLKTRSWAGERSRRELCDRLQDQ GENBANK ID: Y00096.1 VERSION Y00096.1 GI:30455 MREAAFMYSTAVAIFLVILVAALQGSAPRESPLPYEIPLDPEGS LELSWNVSYTQEAIHFQLLVRRLKAGVLFGMSDRQELENADLVVLWTDGDTAYFADAW SDQKGQIHLDFQQDYQLLQVQRTPEGLTLLFKRPFGTCDPKDYLIEDGTVHLVYGILE EPFRSLEAINGSGLQMGLQRVQLLKFNIFEPELFSDTCTNEVQAFNIQIESQETTYWC YIKELPKGFSRHHIIKYEPIVTKGNEALVHHMEVFQCAPEMDSVPHFSGPCDSKMKPD RLNYCRHVLAAWALGAKAFYYPEEAGLAFGGPGSSRVLRLEVHYHNPLVIEGRNDSSG IRLYYTAKLRRFNAGINELGLVYIPVMAIFPRETAFILTGYCTDKCTQLALPPSGIHI FASQLHTHLTGRKVVTVLVRDGREWEIVNQDNHYSFHFQEIRMLKKVVSVHFGDVLIT SCTYNTEDRELATVGGFGILEEMCVNYVHYYPQTQLELCKTAVDAGFLQKYFHLINRF NNEDVCTCFQASVSQQFTSVFWNSFNCDVLKALYSFAPISMHCNKSSAVRFQGEWNLQ PLPKVISTLEEPTPQCPTSQGRSPAGPTVVSIGGGKG GENBANK ID: XM_055551.3 VERSION XM_055551.3 GI:18557356 MKETQKSTYYITGESKEQVANSAFVERVRKQGFEVVYNTEPIDE YCVQQLKEFDGKSLVSVTKEGLELPEDEEEKKKMEESKEKFENLCKLMKEILDKKVEK VTISNRLVSSPCCIVTSTYGWTANMEQIMKAQALRDNSTMGYMNAKKHLEINPDHPIM ETLRQKAEADKNDKAVKDLVVLLFETALLSSGFSLEDPQTHSNHIYHMIKLGLGTDED EVAAEEPSDAVPDEIFFLEQDEDASRMEEVD GENBANK ID: M84711.1 VERSION M84711.1 GI:182774 MAVGKNKRLTKGGKKGAKKKVVDPFSKKDWYDVKAPAMFNIRNI GKTLVTRTQGTKIASDGLKCRVFEVSLADLQNDEVAFRKFKLITEDVQGKNCLTNFHG MDLTRDKMCSMVKKWQTNIEAHVDVKTTDGYLLRLFCVGFTKKRNNQIRKTSYAQEQQ VRQIRKKMMEIMTREVQTNDLKEVVNKLTPDSIGKDIEKACQSIYPLHDVFVRKVKML KKPKFELGKLMELRGEGSSSGKATGDETGAKVERADGYEPPVQESV GENBANK ID: X53505 VERSION X53505.1 GI:36145 MAEEGIAAGGVMDVNTALQEVLKTALIHDGLARGIREAAKALDK RQAHLCVQASNCDEPMYVKLVEALLAEHQINLIKVDDNKKLGEWVGLCKIDREGNPRK VVGCSCVVVKDYGKESQAKDVIEEYFKCKK GENBANK ID: X06617 VERSION X06617.1 GI:26143 MADIQTERAYQKQPTIFQNKKRVLLGETGKEKLFRYYKNIGLGF KTPKEAIEGTYIDKKCPFTGNVSIRGRILSGVVTKMKMQRTIVIRRDYLHYIRKYNRF EKRHKNMSVHLSPCFRDVQIGDIVTVGECRFLSKTVRFNVLKVTKAAGTKKQFQKF GENBANK: M55040.1 VERSION M55040.1 GI:177974 MRPPQCLLHTPSLASPLLLLLLWLLGGGVGAEGREDAELLVTVR GGRLRGIRLKTPGGPVSAFLGIPFAEPPNGPRRFLPPEPKQPWSGVVDATTFQSVCYQ YVDTLYPGFEGTEMNNPNRELSEDCLYLNVWTPYPRPTSPTBVLVWIYGGGFYSGASS LDVYDGRFLVQAERTVLVSNNYRVGAFGFLALPGSREAPGNVGLLDGRLALQWVQENV AAFGGDPTSVTLFGESAGAASVGMHLLSPPSRGLFHRAVLQSGAPNGPWATVGNGEAR RRATQLAHLVGCPBGGTGGNDTELVACLRTRPAQVLVNKEWHVLPQESVFRFSFVPVV DGDFLSDTPEALINAGDFHGLQVLVGVVKDEGSYFLVYGAPGFSKDNESLISRAEFLA GVRVGVPQVSDLAAEAVVLHYTDWLHPEDFARLREALSDVVGDHNVVCPVAQLAGRLA AQGARVYAYVFEHRASTLSWPLWMGVPHGYEIEFIFGIFLDPSRNYTAEEKIFAQRLM RYWANFARTGDPNEPRDPKAPQWPPYTAGAQQYVSLDLRPLEVRRGLRAQACAFWNRF LPKLLSATDTLDEAERQWKAEFHRWSSYMVHWKNQFDHYSKQDRCSDL GENBANK ID: NM_000717.2 VERSION NM_000717.2 GI:9951925 MRMLLALLALSAARPSASAESHWCYEVQAESSNYPCLVPVKNGG NCQKDRQSPINIVTTKAKVDKKLGRFFFSGYDKKQTWTVQNNGHSVMMLLENKASISG GGLDAPYQAKQLHLHWSDLPYKGSEHSLDGEHFANEMNIVHEKEKGTSRNVKEAQDPE DEIAVLAFLVEAGTQVNEGFQPLVEALSNIPKPEMSTTMAESSLLDLLFKEEKLRHYF RYLGSLTTPTCDEKVVWTVFREPIQLRREQILAFSQKLYYDKEQTVSMKDNVRPLQQL GQRTVIKSGAPGRPLPWALPALLGPMLACLLAGFLR GENBANK ID: S70S87.1 VERSION S70587.1 GI:546848 MTALFLMSNLFGLACGQAMSFCIPTEYTMHIERRECAYCLTINT TMCAGYCNTRDINGKLFLPKYALSQDVCTYRDFIYRTVEIPGCPLHVAPYFSYPVALS CKCGKCNTDYSDCIHEAIKTNYCTKPQKSYLVGFSV GENBANK ID: M34057 VERSION M34057.1 GI:339547 MDTKLMCLLFFFSLFPLLVSNHTGRIKVVFTPSICKVTCTKGSC QNSCEKGNTTTLISENGHAADTLTATNFRVVICHLPCNNGGQCSSRDKCQCFFNFTGK LCQIPVHGASVPKLYQNSQGFGKALGTHVIHSTHTLPLTVTSGQGVKVKFPPNIVNIH VKHPPEASVQIHQVSRIDGPTGQKTKEAQPGQSQVSYQGLPVQKTQTIHSTYSHQQVI PHVYPVAAKTQLGRCFQETIGSQCGKALPGLSKQEDCCGTVGTSWGFNKCQKCPKKPS YHGYNQMMECLPGYKRVNNTFCQDINECQLQGVCFNGECLNTMGSYRCTCKIGFGPDP TFSSCVPDPPVISEEKGPCYRLVSSGRQCMYPLSVHLTKQLCCCSVGKAGPHCEKCPL PGTAAFKEICPGGMGYTVSGVHRRRPIHHHVGKGPVFVKPKNTQPVAKSTHPPPLPAK EEPVEALTFSREHGARSAEPEVATAPPEKEIFSLDQEKTKLEPGQPQLSPGISAIHLH PQFPVVIEKTSPFVPVEVAPEASTSSASQVIAPTQVTEINECTVNPDICGAGHCINLP VRYTCICYEGYRFSEQQRKCVDIDECTQVQNLCSQGRCENTEGSFLCICPAGFMASEE GTNCIDVDECLRPDVCGEGHCVNTVGAFRCEYCDSCYRMTQRGRCEDIDECLNPSTCP DEQCVNSPGSYQCVPCTEGFRGWNGQCLDVDECLEFNVCANGDCSNLEGSYMCSCHKG YTRTPDHKHCRDIDECQQCNLCVNGQCKNTECSFRCTCGQGYQLSAAKDQCEDIDECQ NRHLCAHGQCRNTEGSFQCVCDQGYRASGLCDHCEDINECLEDKSVCQRGDCINTAGS YDCTCPDGFQLDDNKTCQDINECEHPGLCGPQGECLNTEGSEHCVCQQGFSISADGRT CEDIDECVNNTVCDSHGFCDNTAGSFRCLCYQGFQAPQDGQGCVDVNECELLSGVCGE AFCENVEGSFLCVCADENQEYSPMTGQCRSRTSTDLDVDVDQPKEEKKECYYNLNDAS LCDNVLAPNVTKQECCCTSGAGWGDNCEIFPCPVLCTAEFTEMCPKGKGFVPAGESSS EAGGENYKDADECLLFGQEICKNGFCLNTRPGYECYCKQGTYYDFVKLQCFDNDECQD PSSCIDGQCVNTEGSYNCFCTHPMVLDASEKRCIRFAESNEQIEETDVYQDLCWEHLS DEYVCSRPLVGKQTTYTECCCLYGEAWGNQCALCPLKDSDDYAQLCNIPVTGRRQPYG RDALVDFSEQYTFEADPYFIQDRFLNSFEELQAEECGILNGCENGRCVRVQEGYTCDC LDGYHLDTAKNTCFDVNECDELNNRNSLCKNAKCINTDGSYKCLCLPGYVPSDKPNYC TPLNTALNLEKDSDLE GENBANK ID: AF257099.1 VERSION AF257099.1 GI:8037944 MSDAAVDTSSEITTEDLKEKKEVVEEAENGRDAFANGNANEENG EPEADNEVDEEEEEGGEEEGDGEEEDGDEDEGAESATGKRAAEDDEDDDVDTQKQKTD EDD GENBANK ID: L06505.1 VERSION L06505.1 GI:186799 MPFKFDFNEIKVVYLRCTGGEVGATSALAPKIGPLGLSPKKVGD DIAKATGDWKGLRITVKLTIQNRQAQIEVVPSASALIIKALKEPPRDRKKQKNIKHSG NITFDEIVNIARQMRHRSLARELSGTIKEILGTAQSVGCNVDGRRHPHDIIDDINSGAV ECPAS GENBANK ID: X79234.1 VERSION X79234.1 GI:495125 MAQDQGEKENPMRELRIRKLCLNICVGESGGRLTRAAKVLEQLT GQTPVFSKARYTVRSFGIRRNEKIAVECAVRGAKAEEILEKGLKVRELELRKNNFSDT GNFGFGIQEHIDLGIEYDFSIGIYGLDFYVVLGRFGFSIADKKRRTGCIGAKHRISKE EAMRWFQQKYDGIILPGK GENBANK ID: X59932.1 VERSION X59932.1 GI:30255 MASIQAAWPSGTECIAKYNFHGTAEQDLPECKGDVLTIVAVIKD PNWYKAKNKVGREGIIFANYVGKREGVKAGTKLSLNPWFHGKITREQAERLLYPPETG LFLVRESTNYFGDYTLCVSCDGKVEHYRINYHASKLSIDEEVYFENLNQLVEHYTSDA DGLCTRLIKFKVNEGTVAAQDEFYRSGWALNMKELKLLQTIGKGEFGDVNLGDYRGNK VAVKCIKNDATAQAFLAEASVNTQLRHSNLVQLLGVIVEEKGGLYIVTEYMAKGSLVD YLRSRGRSVLGGDCLLKFSLDVCEANEYLEGNNFVHRDLAARNVLVSEDNVAKVSDFG LTKEASSTQDTGKLPVKWTAPEALREKKESTKSDVWSFGILLWEIYSFGRVPYPRIPL KDVVFRVEKGYKNDAFDGCPFAVYEVNKNCWHLDAANRFSFLQLREQLEHIKTHELHL GENBANK ID: AAA98616.1 VERSION AAA98616.1 GI:178428 1 MQGPWVLLLL GLRLQLSLGI IPVEEENPDF WNRQAAEALG AAKKLQPAQT AAKNLIMFLG 61 DGMGVSTVTA ARILKGQKKD KLGPETFLAM DRFPYVALSK TYSVDKHVPD SGATATAYLC 121 GVKGNFQTIG LSAAARFNQC NTTRGNEVIS VVNRAKKAGK SVGVVTTTRV QHASPAGTYA 181 HTVNRNWYSD ADVPASARQE GCQDIATQLI SNMDIDVILG GGRKYMFPMG TPDPEYFDDY 241 SQGGTRLDGK NLVQEWLAKH QGARYVWNRT ELLQASLDPS VTHLMGLFEP GDMKYEIHRD 301 STLDPSLMEM TEAALLLLSR NPRGFFLFVE GGRIDHGNHE SRAYRALTET IMFDDATERA 361 GQLTSEEDTL SLVTADHSHV FSFGGYPLRG SSIFGLAPGK ARGRKAYTVL LYGNGRGYVL 421 KDGARFDVTE SESGSPEYRQ QSAVFLDGET HAGEDVAVFA RGPQAHLVHG VQEQTFIAHV 481 MAFAACLEPY TACDLAPPAG TTDAAHPGPS VVPALLPLLA GTLLLLGTAT AP GENBANK ID: XM_041507.1 VERSION XM_041507.1 GI:14727457 MGCTVSAEDKAAAERSKMIDKNLREDGEKAAREVKLLLLGAGES GKSTIVEQEKIIREDGVSEEECRQYRAVVYSNTIQSIEAIVKAMGNLQIDFADPSRAD DARQLFALSCTAEEQGVLFDDLSGVIRRLWADHGVQACFCRSREYQLNDSAAYYLNDL ERIAQSDYIPTQQDVLRTRVKTTGIVETHFTFKDLHFKEFDVGGQRSERKKWIHCFEG VIAIIFCVALSAYDLVLAEDEEMNRNNESMKLFDSICNNKWFTDTSIILFLNKKDLFE EKITHSPLTICFPEVTGANKYDEAASYIQSKFEDLNKRKDTKEIVTHFTCATDTKNVQ FVFDAVTDVIIKNNLKDCGLF GENBANK ID: NM_001032.2 VERSION NM_001032.2 GI:13904868 MGHQQLYESHPRKFGQGSRSCRVCSNRHGLIRKVGLNMCRQCFR QYAKDIGFIKLD GENBANK ID: M22430.1 VERSION M22430.1 GI:190888 MKTLLLLAVIMIFGLLQAHGNLVNFHRNIKLTTGKEAALSVGFY GCHCGVGGRGSPKDATDRCCVTNDCCYKRLEKRGCGTKFLSYKFSNSGSRITCAKQDS CRSQLCECDKAAATCFARNKTTYNKKYQYYSNKHCRGSTPRC GENBANK ID: X63527 VERSION X63527.1 GI:36127 MSNLRLQKRLASSVLRC0KKKVELDPNETNEIANANSRQQIRKL IRDGLIIRKPVTVHSRARCRKNTLARRKGRHMGIGKRKGTANARMPEKVTENRRMRIL RRLLRRYRESKKIDRHNYHSLYLKVK0NVFKNKRILNEHIHKLKADKARKKLLADQAE ARRSKTKEARKRREERLQAKKEEIIKTLSKEEETKK GENBANK ID: AF099644.1 VERSION AF099644.1 GI:4323527 MAQFAFESDLHSLLQLDAPIPNAPPARWGRKAKEAAGFAFSPMR AANRSHSAGRTPGRTPGKSSSKVQTTPSKFGGDRVIFHRSAAQMEVASFLLSKENQFE NSQTPTKKEHQKAWALNLNGFDVEEAKILRLSGKPQNAPEGYQNRLKVLYSQKATPGS SRKICRVIPSLPDRILDAPEIRNDYYLNLVDWSSGNVLAVALDNSVVLWSASSGDILQ LLQMEQPGEYISSVAWIKEGNYLAVGTSSAEVQLWDVQQQKRLRNMTSHSARVGSLSW NSYILSSGSRSGHIHHHDVRVAEHHVATLSGHSGEVCGLRWAPDGRHLASGGNDNLVN VWPSAPGEGGEVFLQTFTQHQGAVKAVAECPWQSNVLATGGGTSDRHIRIENVCSGAC LSAVDAHSQVCSILWSPHYKELISGHGFAQNQLVIWKYPTMAKVAELKGHTSRVLSLT MSPDGATVASAAADETLRLWRCFELDPARRREREKASAAKSSLIHQGIR GENBANK ID: X51466 VERSION X51466.1 GI:31105 MVNFTVDQIRAIMDKKANIRNMSVIAHVDHGKSTLTDSLVCKAG IIASARAGETRFTDTRKDEQERCITIKSTAISLFVELSENDLNFIKQSKDGAGFLINL IDSPGMVDFSSEVTAALRVTDGALVVVDCVSGVCVQTETVLRQAIAERIKPVLMMNKM DRALLELQLEPEELYQTFQRIVENVNVIISTYGEGESGPMGNIMIDPVLGTVGFGSGL HGMAFTLKQFAEMYVAKFAAKGEGQLGPAERAKKVEDMMKKLWGDRYFDFANGKFSKS ATSPEGKKLPRTFCQLILDPIFKVFDAIMNFKKEETAKLIEKLDIKLDSEDKDKEGKP LLKAVMRRWLPAGDALLQMITIHLPSPVTAQKYRCELLYEGPPDDEAAMGIKSCDPKG PLMMVISKNVPTSDKGRFYAFGRVFSGLVSTGLKVRIMGFNYTFGKKEDLYLKPIQRT ILMMGRYVEPIEDVFCGNIVGLVGVDGFLVKTGTITTFEHAHNMRVMKFSVSPVVRVA VEAKNPADLPKLVEGLKRLAKSDPMVQCIIEESGEHIIAGAGELHLEICLKDLEEDHA CIPIKKSDPVVSYRETVSEESNVLCLSKSPNKHNRLYMKARPFPDGLAEDIDKGEVSA RQELKQRARVLAEKVEWDVAEARKIMCFGPDGTGPNILTDITKGVQYLNEIKDSVVAG FQWATKEGALCEENMRGVRFDVMDVTLMADAIHRGGGQIIPTARRCLYASVLTAQPRL MEPIVLVEIQCPEQVVGGIVGVLNRKRGHVFEESQVAGTPMFVVKAYLPVNESFGFTA DLRSNTGGQAFPQCVFDHWQILPGDPFDNSSRPSQVVAETRKRKGLKKGIPALDNFLD GENBANK ID: M15661 VERSION M15661.1 GI:337577 MVNVPKTRRTFCKKCGKHQPHKVTQYKKGKDSLYAQGRRRYDRK QSGYGGQTKPIFRKKAKTTKKIVLRLECVEPNCRSKRMLAIKRCKHFELGGDKKRKGQ VIQF GENEANK ID: J04823.1 VERSION J04823.1 GI:1311703 MSVLTFLLLRGLTGSARRLPVPRAKIHSLPPEGKLGINELAVGL TSCFVTFLLPAGWILSHLETYRRPE GENBANK ID: NM_001760.2 VERSION NM_001760.2 GI:16950657 MELLCCEGTRHAPRAGPDPRLLGDQRVLQSLLRLEERYVPRASY FQCVQREIKPHMRKMLAYWMLEVCEEQRCEEEVFPLANNYLDRYLSCVPTRKAQLQLL GAVCMLLASKLRETTPLTIEKLCIYTDHAVSFRQLRDWEVLVLGKLKWDLAAVIAHDF LAFILHRLSLPRDRQALVKKHAQTFLALCATDYTFAMYPPSMIATGSIGAAVQGLGAC SMSGDELTELLAGITGTEVDCLRACQEQIEAALRESLREASQTSSSPAPKABRGSSSQ GPSQTSTPTDVTAIHL GENBANK ID: NM_002625.1 DEFINITION HOMO SAPIENS 6-PHOSPHOFRUCTO-2-KINASEFRUCTOSE-2,6-BIPHOSPHA- TASE 1 (PFKFB1), MRNA. VERSION NM_002625.1 GI:4505744 CDS 80..1495 1 GAATTCCGGA CAGGTAGTAA GATAGGAAGT GAGGCCAGGT ACCTTGTGGG CAGTGATGTC 61 ATTCGGTGCG ACTCCTAAGA TGTCTCCAGA GATGGGAGAG CTCACCCAAA CCAGGTTGCA 121 GAAGATCTGG ATTCCACACA GCAGCGGCAG CAGCAGGCTG CAACGGAGAA GGGGCTCATC 181 CATACCCCAG TTTACCAATT CCCCCACAAT GGTGATCATG GTGGGTTTAC CAGCTCGAGG 241 CAAGACCTAT ATCTCCACAA AGCTCACACG ATATCTCAAC TGGATAGGAA CACCAACTAA 301 AGTGTTTAAT TTAGGCCAGT ATCGACGAGA GGCAGTGAGC TACAAGAACT ATGAATTCTT 361 TCTTCCAGAC AACATGGAAG CCCTGCAAAT CAGGAAGCAG TGCGCCCTGG CAGCCCTGAA 421 GGATGTTCAC AACTATCTCA GCCATGAGGA AGGTCATGTT GCGGTTTTTG ATGCCACCAA 481 CACTACCAGA GPACGACGGT CACTGATCCT GCAGTTTGCA AAAGAACATG GTTACAAGGT 541 GTTTTTCATT GAGTCCATTT GTAATGACCC TGGCATAATT GCAGAAAACA TCAGGCAAGT 601 GAAACTTGGC AGCCCTGATT ATATAGACTG TGACCGGGAA AAGGTTCTGG AAGACTTTCT 661 AAAGAGAATT GAGTGCTATG AGGTCAACTA CCAACCCTTG GATGAGGAAC TGGACAGCCA 721 CCTGTCCTAC ATCAAGATCT TCGACGTGGG CACACGCTAC ATGGTGAACC GAGTGCAGGA 781 TCACATCCAG AGCCGCACAG TCTACTACCT CATGAATATC CATGTCACAC CTCGCTCCAT 841 CTACCTTTGC CGACATGGCG AGAGTGAACT CAACATCAGA GGCCGCATCG GAGGTGACTC 901 TGGCCTCTCA GTTCGCGGCA AGCAGTATGC CTATGCCCTG GCCAACTTCA TTCAGTCCCA 961 GGGCATCAGC TCCCTGAAGG TGTGGACCAG TCGCATGAAG AGGACCATCC AGACAGCTGA 1021 GGCCCTGGGT GTCCCCTATG AGCAGTGGAA GGCCCTGAAT GAGATTGATG CGGGTGTCTG 1081 TGAGGAGATG ACCTATGAAG AAATCCAGGA ACATTACCCT GAAGAATTTG CACTGCGAGA 1141 CCAAGATAAA TATCGCTACC GCTATCCCAA GGGAGAGTCC TATGAGGATC TGGTTCAGCG 1201 TCTGGAGCCA GTGATAATGG AGCTAGAACG ACAGGAGAAT GTACTGGTGA TCTGCCACCA 1261 GGCTGTCATG CGGTGCCTCC TGGCCTATTT CCTGGATAAA AGTTCAGATG AGCTTCCATA 1321 TCTCAAGTGC CCTCTGCACA CAGTGCTCAA ACTCACTCCT GTGGCTTATG GCTGCAAAGT 1381 GGAATCCATC TACCTGAATG TGGAGGCCGT GAACACACAC CGGGAGAAGC CTGAGAATGT 1441 GGACATCACC CGGGAACCTG AGGAAGCCCT GGATACTGTC CCAGCCCACT ACTGAGCGCT 1501 TTCCAAGAAG TCAAACTGCC TGTGTCCTCA TCGCCTTCCA CCTTTAGGAA ATGCTATCTT 1561 TGCTCTTCTC CTACTCTGCC TTGGCCTCAC TGAGGCACCC CACTTCCAGT GAAGAAGTCC 1621 TCCGCAACTC CCAAACAAGC CTCGCTTGCT GGCCGCAACC AAGGAGCTAT CTAGCTCTGG 1681 AGGAAACTTT CTTTCTTAAT TCCTATTCTC TGACGAATAA AGACTTACTG CCTACAAGAG 1741 G GENBANK ID: D00760 DEFINITION HUMAN MRNA FOR PROTEASOME SUBUNIT HC3. VERSION D00760.1 GI:220023 CDS 1..705 /CODON_START=1 1 ATGGCGGAGC GCGGGTACAG CTTTTCGCTG ACTACATTCA GCCCGTCTGG TAAACTTGTC 61 CAGATTGAAT ATGCTTTGGC TGCTCTAGCT GGAGGAGCCC CGTCCGTGGG AATTAAAGCT 121 GCAAATGCTG TGGTATTAGC AACTGAGAAA AAACAGAAAT CCATTCTGTA TGATGACCGA 181 AGTGTACACA AAGTAGAACC AATTACCAAG CATATAGGTT TGGTGTACAG TGGCATGGGC 241 CCCGATTACA GAGTGCTTGT GCACAGAGCT CGAAAACTAG CTCAACAATA CTATCTTGTG 301 TACCAAGAAC CCATTCCTAC AGCTCAGCTG GTACAGAGAG TAGCTTCTGP CATGCAAGAA 361 TATACTCAGT CAGGTGGTGT TCGTCCATTT GGAGTTTCTT TACTTATTTG TGGTTGGAAT 421 GACGGACCAC CATATTTATT TCAGTCAGAT CCATCTGGAG CTTACTTTGC CTGGAAAGCT 481 ACACCAATGG GAAAGAACTA TGTGAATCGG AAGACTTTCC TTGAGAAAAG ATATAATGAA 541 GATCTGGAAC TTGAAGATGC CATTCATACA GCCATCTTAA CCCTAAAGGA AAGCTTTGAA 601 GGGCAAATGA CAGAGGATAA CATAGAAGTT GGAATCTGCA ATGAAGCTGG ATTTAGGAGG 661 CTTACTCCAA CTGAAGTTAA GGATTACTTG GCTGCCATAG CATAACAATG AAGTGACTGA 721 AAAATCCAGA ATTTCAGATA ATCTATCTAC TTAAACATGT TTAAAGTATG TTTTGTTTTG 781 CAGACTTTTT GCATACTTAT TTCTACATGG TTTAAATCGA CTGTTTTTAA AATGACACTT 841 ATAAATCCTA ATAAACTGTT AAACCC GENBANK ID: P10644 GENBANK ID: XM_043948.2 DEFINITION HOMO SAPIENS ALDOLASE A, FRUCTOSE-BISPHOSPHATE (ALDOA), MRNA. VERSION XM_043948.2 GI:18585537 CDS 243..1349 /CODON_START=1 1 AAAAACCAGG GCTCCAGAGA ATCAGAACAG CCACCATCAC CGCAGGGAGT CAAGGGAGGA 61 GGGAGATTAG AGAAGGAGCC AGGGAGGGTG GCAGGGAGGC CACGTGATCC GAGTCCCCTC 121 ACCCCTTTCC TTCCCACAGG TCCCTGGCCA AAGATTTATT TCTCTTGACA ACCAAGGGCC 181 TCCGTCTGGA TTTCCAAGGA AGAATTTCCT CTGAAGCACC GGAACTTGCT ACTACCAGCA 241 CCATGCCCTA CCAATATCCA GCACTGACCC CGGAGCAGAA GAAGGAGCTG TCTGACATCG 301 CTCACCGCAT CGTGGCACCT GGCAAGGGCA TCCTGGCTGC AGATGAGTCC ACTGGGAGCA 361 TTGCCAAGCG GCTGCAGTCC ATTGGCACCG AGAACACCGA GGAGAACCGG CGCTTCTACC 421 GCCAGCTGCT GCTGACAGCT GACGACCGCG TGAACCCCTG CATTGGGGGT GTCATCCTCT 481 TCCATGAGAC ACTCTACCAG AAGGCGGATG ATGGGCGTCC CTTCCCCCAA GTTATCAAAT 541 CCAAGGGCGG TGTTGTGGGC ATGAAGGTAG ACAAGGGCGT GGTCCCCCTG GCAGGGACAA 601 ATGGCGAGAC TACCACCCAA GGGTTGGATG GGCTGTCTGA GCGCTGTGCC CAGTACAAGA 661 AGGACGGAGC TGACTTCGCC AAGTGGCGTT GTGTGCTGAA GATTGGGGAA CACACCCCCT 721 CAGCCCTCGC CATCATGGAA AATGCCAATG TTCTGGCCCG TTATGCCAGT ATCTGCCAGC 781 AGGTGGGCCT GCAGAATGGC ATTGTGCCCA TCGTGGAGCC TGAGATCCTC CCTGATGGGG 841 ACCATGACTT GAAGCGCTGC CAGTATGTGA CCGAGAAGGT GCTGGCTGCT GTCTACAAGG 901 CTCTGAGTGA CCACCACATC TACCTGGAAG GCACCTTGCT GAAGCCCAAC ATGGTCACCC 961 CAGGCCATGC TTGCACTCAG AAGTTTTCTC ATGAGGAGAT TGCCATGGCG ACCGTCACAG 1021 CGCTGCGCCG CACAGTGCCC CCCGCTGTCA CTGGGATCAC CTTCCTGTCT GGAGGCCAGA 1081 GTGAGGAGGA GGCGTCCATC AACCTCAATG CCATTAACAA GTGCCCCCTG CTGAAGCCCT 1141 GGGCCCTGAC CTTCTCCTAC GGCCGAGCCC TGCAGGCCTC TGCCCTGAAG GCCTGGGGCG 1201 GGAAGAAGGA GAACCTGAAG GCTGCGCAGG AGGAGTATGT CAAGCGAGCC CTGGCCAACA 1261 GCCTTGCCTG TCAAGGAAAG TACACTCCGA GCGGTCAGGC TGGGGCTGCT GCCAGCGAGT 1321 CCCTCTTCGT CTCTAACCAC GCCTATTAAG CGGAGGTGTT CCCAGGCTGC CCCCAACACT 1381 CCAGGCCCTG CCCCCTCCCA CTCTTGAAGA GGAGGCCGCC TCCTCGGGGC TCCAGGCTGG 1441 CTTGCCCGCG CTCTTTCTTC CCTCGTGACA GTGGTGTGTG GTGTCGTCTG TGAATGCTAA 1501 GTCCATCACC CTTTCCGGCA CACTGCCAAA TAAACAGCTA TTTAAGGGGG GENBANK ID: NM_005175.1 DEFINITION HOMO SAPIENS ATP SYNTHASE, H+TRANSPORTING, MITOCHONDRIAL F0 COMPLEX, SUBUNIT C (SUBUNIT 9), ISOFORM 1 (ATP5G1), MRNA. VERSION NM_005175.1 GI:4885080 CDS 120..530 /CODON_START=1 1 GGGGAAGCTG AGGGCTGAGA CCAAGGGCTA AAGCTGGGAG GTGAGTCTGT CACCTTGAGC 61 CGGGCGAGCG CTGTGGGCCA AGCAGGGGTT GCAGGGCAGT AGGAGTGCAG ACTGAAAAAA 121 TGCAGACCGC CGGGGCATTA TTCATTTCTC CAGCTCTGAT CCGCTGTTGT ACCAGGGGTC 181 TAATCAGGCC TGTGTCTGCC TCCTTCTTGA ATAGCCCAGT GAATTCATCT AAACAGCCTT 241 CCTACAGCAA CTTCCCACTC CAGGTGGCCA GACGGGAGTT CCAGACCAGT GTTGTCTCCC 301 GGGACATTGA CACAGCAGCC AAGTTTATTG GTGCTGGGGC AGCCACAGTT GGTGTGGCTG 361 GTTCAGGGGC TGGCATTGGA ACCGTGTTTG GCAGCTTGAT CATTGGCTAT GCCAGGAACC 421 CGTCTCTCAA GCAGCAGCTC TTCTCCTATG CCATTCTTGG CTTTGCCCTG TCTGAGGCCA 481 TGGGGCTTTT CTGTTTGATG GTCGCCTTCC TCATCCTCTT CGCCATGTGA GGCTCCATGG 541 GGGGTCACCG GCCTGTTGCT ACTGCAACTC CACACCATTC TTGGTGCTGC GGTGTGTTAA 601 GCTTTACCAT TAAACACAAC GTTTCTCTAA A GENBANK ID: M20496.1 DNA LINEAR DEFINITION HUMAN CATHEPSIN L GENE, COMPLETE CDS. VERSION M20496.1 GI:809235 CDS 134..1135 /CODON_START=1 1 ACCTCCACGT GCCCTGTTTT TCTGGAGGCA CATCCTTGGC CTCTTCCACA GTCCTTGGGT 61 AAATGCTTGG GAGAATAATT TAAATATTTT TATTGTACCA TGGTGGCCCT AATTTTTCAG 121 GGGGCAGTAA GATATGAATC CTACACTCAT CCTTGCTGCC TTTTGCCTGG GAATTGCCTC 181 AGCTACTCTA ACATTTGATC ACAGTTTAGA GGCACAGTGG ACCAAGTGCA AGGCGATGCA 241 CAACAGATTA TACGGCATGA ATGAAGAAGG ATGGAGGAGA GCAGTGTGGG AGAAGAACAT 301 GAAGATGATT GAACTGCACA ATCAGGAATA CAGGGAAGGG AAACACAGCT TCACAATGGC 361 CATGAACGCC TTTGGAGACA TGACCAGTGA AGAATTCAGG CAGGTGATGA ATGGCTTTCA 421 AAACCGTAAG CCCAGGAAGG GGAAAGTGTT CCAGGAACCT CTGTTTTATG AGGCCGCCAG 481 ATCTGTGGAT TGGAGAGAGA AAGGCTACGT GACTCCTGTG AAGAATCAGG GTCAGTGTGG 541 TTCTTGTTGG GCTTTTAGTG CTACTGGTGC TCTTGAAGGA CAGATGTTCC GGAAAACTGC 601 GAGGCTTATC TCACTGAGTG AGCAGAATCT GGTAGACTGC TCTGGGCCTC AAGGCAATGA 661 AGGCTGCAAT GGTGGCCTAA TGGATTATGC TTTCCAGTAT GTTCAGGATA ATGGAGGCCT 721 GGACTCTGAG GAATCCTATC CATATGAGGC AACAGAAGAA TCCTGTAAGT ACAATCCCAA 781 GTATTCTGTT GCTAATGACA CCGGCTTTGT GGACATCCCT AAGCAGGAGA AGGCCCTGAT 841 GAAGGCAGTT GCAACTGTGG GGCCCATTTC TGTTGCTATT GATGCAGGTC ATGAGTCCTT 901 CCTGTTCTAT AAAGAAGGCA TTTATTTTGA GCCAGACTGT AGCAGTGAAG ACATGGATCA 961 TGGTGTGCTG GTGGTTGGCT ACGGATTTGA AAGCACAGAA TCAGATAACA ATAAATATTG 1021 GCTGGTGAAG AACAGCTGGG GTGAAGAATG GGGCATGGGT GGCTACGTAA AGATGGCCAA 1081 AGACCGGAGA AACCATTGTG GAATTGCCTC AGCAGCCAGC TACCCCACTG TGTGAGCTGT 1141 GGACGGTGAT GAGGAAGGAC TTGACTGGGG ATGGCGCATG CATGGGAGGA ATTCTTCAGT 1201 CTACCAGCCC CCGCTGTGTC GGATACACAC TCGAATCATT GAAGATCCGA GTGTGATTTG 1261 AATTCTGTGA TATTTTCACA CTGGTAAATG TTACCTCTAT TTTAATTACT GCTATAAATA 1321 GGTTTATATT ATTGATTCAC TTACTGACTT TGCATTTTCG TTTTTAAAAG GATGTATAAA 1381 TTTTTACCTG TTTAAATAAA ATCG GENBANK ID: XM_031596.3 DEFINITION HOMO SAPIENS ANNEXIN A4 (ANXA4), MRNA. VERSION XM_031596.3 GI:18553329 CDS 48..770 /CODON_START=1 1 GAAGAACTTC TGCTTGGGTG GCTGAACTCT GATCTTGACC TAGAGTCATG GCCATGGCAA 61 CCAAAGGAGG TACTGTCAAA GCTGCTTCAG GATTCAATGC CATGGAAGAT GCCCAGACCC 121 TGAGGAAGGC CATGAAAGGG CTCGGCACCG ATGAAGACGC CATTATTAGC GTCCTTGCCT 181 ACCGCAACAC CGCCCAGCGC CAGGAGATCA GGACAGCCTA CAAGAGCACC ATCGGCAGGG 241 ACTTGATAGA CGACCTGAAG TCAGAACTGA GTGGCAACTT CGAGCAGGTG ATTGTGGGGA 301 TGATGACGCC CACGGTGCTG TATGACGTGC AAGAGCTGCG AAGGGCCATG AAGGGAGCCG 361 GCACTGATGA GGGCTGCCTA ATTGAGATCC TGGCCTCCCG GACCCCTGAG GAGATCCGGC 421 GCATAAGCCA AACCTACCAG CAGCAATATG GACGGAGCCT TGAAGATGAC ATTCGCTCTG 481 ACACATCGTT CATGTTCCAG CGAGTGCTGG TGTCTCTGTC AGCTGGTGGG AGGGATGAAG 541 GAAATTATCT GGACGATGCT CTCGTGAGAC AGGATGCCCA GGACCTGTAT GAGGCTGGAG 601 AGAAGAAATG GGGGACAGAT GAGGTGAAAT TTCTAACTGT TCTCTGTTCC CGGAACCGAA 661 ATCACCTGTT GCATGGTTTG ATGAATACAA AAGGATATCA CAGAAGGATA TTGAACAGAG 721 TATTAAATCT GAAACATCTG GTAGCTTTGA AGATGCTCTG CTGGCTATAG TAAAGTGCAT 781 GAGGAACAAA TCTGCATATT TTGCTGAAAA GCTCTATAAA TCGATGAAGG GCTTGGGCAC 841 CGATGATAAC ACCCTCATCA GAGTGATGGT TTCTCGAGCA GAAATTGACA TGTTGGATAT 901 CCGGGCACAC TTCAAGAGAC TCTATGGAAA GTCTCTGTAC TCGTTCATCA AGGGTGACAC 961 ATCTGGAGAC TACAGGAAAG TACTGCTTGT TCTCTGTGGA GGAGATGATT AAAATAAAAA 1021 TCCCAGAAGG ACAGGAGGAT TCTCAACACT TTGAATTTTT TTAACTTCAT TTTTCTACAC 1081 TGCTATTATC ATTATCTCAG AATGCTTATT TCCAATTAAA ACCGCTACAG CTGCCTCCTA 1141 GAATATAGAC TGTCTGTATT ATTATTGACG TATAATTAGT CATTATGATG CTTTAAAGCT 1201 GTACTTGCAT TTCAAAGCTT ATAAGATATA AATGGAGATT TTAAAGTAGA AATAAATATG 1261 TATTCCATGT TTTTAAAAGA TTACTTTCTA CTTTGTCTTT CACAGACATT GAATATATTA 1321 AATTATTCCA TATTTTCTTT TCAGTGAAAA ATTTTTTAAA TGGAAGACTG TTCTAAAATC 1381 ACTTTTTTCC CTAATCCAAT TTTTAGAGTG GCTAGTAGTT TCTTCATTTG AAATTGTAAG 1441 CATCCGGTCA GTAAGAATGC CCATCCAGTT TTCTATATTT CATAGTCAAA GCCTTGAAAG 1501 CATCTACAAA TCTCTTTTTT TAGGTTTTGT CCATAGCATC AGTTGATCCT TACTAAGTTT 1561 TTCATGGGAG ACTTCCTTCA TCACATCTTA TGTTGAAATC ACTTTCTGTA GTCAAAGTAT 1621 ACCAAAACCA ATTTATCTGA ACTAAATTCT AAAGTATGGT TATACAAACC ATATACATCT 1681 GGTTACCAAA CATAAATGCT GAACATTCCA TATTATTATA GTTAATGTCT TAATCCAGCT 1741 TGCAAGTGAA TGGAAAAAAA AATAAGCTTC AAACTAGGTA TTCTGGGAAT GATGTAATGC 1801 TCTGAATTTA GTATGATATA AAGAAAACTT TTTTGTGCTA AAAATACTTT TTAAAATCAA 1861 TTTTGTTGAT TGTAGTAATT TCTATTTGCA CTGTGCCTTT CAACTCCAGA AACATTCTGA 1921 AGATGTACTT GGATTTAATT AAAAAGTTCA CTTTGT GENBANK ID: M22865.1 DEFINITION HUMAN CYTOCHROME B5 MRNA, COMPLETE CDS. VERSION M22865.1 GI:181226 53..457 CODON_START=1 1 CAGCCAGCTC GACGGGGCTG TGTGTGCTGG GCCTGGCTCG CGGCGAACCG AGATGGCAGA 61 GCAGTCGGAC GAGGCCGTGA ACTACTACAC CCTAGAGGAG ATTCAGAAGC ACAACCACAG 121 CAAGAGCACC TGGCTGATCC TGCACCACAA GGTGTACGAT TTGACCAAAT TTCTGGAAGA 181 GCATCCTGGT GGGGAAGAAG TTTTAAGGGA ACAAGCTGGA GGTGACGCTA CTGAGAACTT 241 TGAGGATGTC GGGCACTCTA CAGATGCCAG GGAAATGTCC AAAACATTCA TCATTGGGGA 301 GCTCCATCCA GATGACAGAC CAAAGTTAAA CAAGCCTCCG GAAACTCTTA TCACTACTAT 361 TGATTCTAGT TCCAGTTGGT GGACCAACTG GGTGATCCCT CCCATCTCTG CAGTGGCCGT 421 CGCCTTGATG TATCGCCTAT ACATGGCAGA GGACTGAACA CCTCCTCAGA AGTCAGCGCA 481 GGCCGAGCCT GCTTTGGACA CGGGAGAAAA GAAGCCATTG CTAACTACTT CAACTGACAG 541 AAACCTTCAC TTGAAAACAA TGATTTTAAT ATATCTCTTT CTTTTTCTTC CGACATTAGA 601 AACAAAACAA AAAGAACTGT CCTTTCTGCG CTCAAATTTT TCGAGTGTGC CTTTTTATTC 661 ATCTACTTTA TTTTGATGTT TCCTTAATGT GTAATTTACT TATTATAAGC ATCATCTTTT 721 AAAAATATAT TTGGCTTTTA AAG GENBANK ID: M14362.1 DEFINITION HUMAN T-CELL SURFACE ANTIGEN CD2 (T11) MRNA, COMPLETE CDS. VERSION M14362.1 GI:179133 CDS 10..1065 /CODON_START=1 1 ACCCCTAAGA TGAGCTTTCC ATGTAAATTT GTAGCCAGCT TCCTTCTGAT TTTCAATGTT 61 TCTTCCAAAG GTGCAGTCTC CAAAGAGATT ACGAATGCCT TGGAAACCTG GGGTGCCTTG 121 GGTCAGGACA TCAACTTGGA CATTCCTAGT TTTCAAATGA GTGATGATAT TGACGATATA 181 AAATGGGAAA AAACTTCAGA CAAGAAAAAG ATTGCACAAT TCAGAAAAGA GAAAGAGACT 241 TTCAAGGAAA AAGATACATA TAAGCTATTT AAAAATGGAA CTCTGAAAAT TAAGCATCTG 301 AAGACCGATG ATCAGGATAT CTACAAGGTA TCAATATATG ATACAAAAGG AAAAAATGTG 361 TTGGAAAAAA TATTTGATTT GAAGATTCAA GAGAGGGTCT CAAAACCAAA GATCTCCTGG 421 ACTTGTATCA ACACAACCCT GACCTGTGAG GTAATGAATG GAACTGACCC CGAATTAAAC 481 CTGTATCAAG ATGGGAAACA TCTAAAACTT TCTCAGAGGG TCATCACACA CAAGTGGACC 541 ACCAGCCTGA GTGCAAAATT CAAGTGCACA GCAGGGAACA AAGTCAGCAA GGAATCCAGT 601 GTCGAGCCTG TCAGCTGTCC AGAGAAAGGT CTGGACATCT ATCTCATCAT TGGCATATGT 661 GGAGGAGGCA GCCTCTTGAT GGTCTTTGTG GCACTGCTCG TTTTCTATAT CACCAAAAGG 721 AAAAAACAGA GGAGTCGGAG AAATGATGAG GAGCTGGAGA CAAGAGCCCA CAGAGTAGCT 781 ACTGAAGAAA GGGGCCGGAA GCCCCACCAA ATTCCAGCTT CAACCCCTCA GAATCCAGCA 841 ACTTCCCAAC ATCCTCCTCC ACCACCTGGT CATCGTTCCC AGGCACCTAG TCATCGTCCC 901 CCGCCTCCTG GACACCGTGT TCAGCACCAG CCTCAGAAGA GGCCTCCTGC TCCGTCGGGC 961 ACACAAGTTC ACCAGCAGAA AGGCCCGCCC CTCCCCAGAC CTCGAGTTCA GCCAAAACCT 1021 CCCCATGGGG CAGCAGAAAA CTCATTGTCC CCTTCCTCTA ATTAAAAAAG ATAGAAACTG 1081 TATTTTTCAA TAAAAAGCAC TGTGGATTTC TGCCCTCCTG ATGTGCATAT CCGTACTTCC 1141 ATGAGGTGTT TTCTGTGTGC AGAACATTGT CACCTCCTGA GGCTGTGGGC CACAGCCACC 1201 TCTGCATCTT CGAACTCAGC CATGTGGTCA ACATCTGGAG TTTTTGGTCT CCTCAGAGAG 1261 CTCCATCACA CCAGTAAGGA GAAGCAATAT AAGTGTGATT GCAAGAATGG TAGAGGACCG 1321 AGCACAGAAA TCTTAGAGAT TTCCTGTCCC CTCTCAGGTC ATGTGTAGAT GCGATAAATC 1381 AAGTGATTGG TGTGCCTGGG TCTCACTACA AGCAGCCTAT CTGCTTAAGA GACTCTGGAG 1441 TTTCTTATGT GCCCTGGTGG ACACTTGCCC ACCATCCTGT GAGTAAAAGT GAAATAAAAG 1501 CTTTGACTAG GENBANK ID: XM_087746.1 DEFINITION HOMO SAPIENS SIMILAR TO KIDNEY ANINOPEPTIDASE N; LEUCINE ARYLANINOPEPTIDASE 1 (LOC153726), MRNA. VERSION XM_087746.1 GI:18561749 CDS 262..639 /CODON_START=1 1 GAGTTCCATG CCACCTCCCC GCCCTTTACA GACATGCTAT AAGGTCCCCA GCCCAGTCAC 61 TCCGCAGTGC CTCTCTCTTC CTCCCCATGG ACTATACACA GGCCCTGCTT GTCCTGGAGG 121 AAAGTTTGGA CGTCATTATA TAGAICAGGA GACTGAAGTA CTGAAAGGTT AAATGACTTG 181 CCAAAGAATG AGATCTTTTT TTCTAACATT TTACATAATA TCCTCAGAGA AGATCACGCC 241 CTGGTGACTA GAGCTGTGGC CATGAAGGTG GAAAATTTCA AAACAAGTGA AATACAGGAA 301 CTCTTTGACA TATTTACTTA CAGCAAGGGA GCGTCTATGG CCCGGATGCT TTCTTGTTTC 361 TTGAATGAGC ATTTATTTGT CAGTGCACTC AAGTCATATT TGAAGACATT TTCCTACTCA 421 AACGCTGAGC AAGATGATCT ATGGAGGCAT TTTCAAATGG CCATAGATGA GCAGACTACA 481 GTTATTTTGC CAGCAACAAT AAAAAACATA ATGGACAGGT GGACACACCA GAGTGGTTTT 541 CCAGTGATCA CTTTAAATGT GTCTACTGGC GTCATGAAAC AGGAGCCATT TTATCTTGAA 601 AACATTAAAA ATCGGACTCT TCTAACCAGC AATAAGTGAC ACATGGATTG TCCCTATTCT 661 TTGGATAAAA AATGGAACTA CACAACCTTT AGTCTGGCTA GA GENBANK ID: P31749 DEFINITION DICTYOSTELION DISCOIDEUM RAC-ALPHA SERINETHREONINE KINASE HOMOLOG MRNA, COMPLETE CDS. VERSION PU15210.1 GI:1000068 CDS 1..1335 /CODON_START=1 1 ATGTCAACAG CACCAATTAA ACATGAAGGT TTCCTCACTA AAGAAGGTGG TGGTTTCAAA 61 AGTTGGAAAA AGAGATGGTT CATTCTCAAA GGTGGTGATT TAAGTTATTA TAAAACAAAA 121 GGTGAACTTG TACCATTAGG AGTTATTCAT TTAAATACAT CAGGTCATAT TAAAAATTCT 181 GATCGTAAGA AAAGAGTTAA TGGATTTGAA GTACAAACAC CATCACGTAC ATATTTCTTA 241 TGTTCAGAGA CAGAGGAAGA ACGTGCAAAA TGGATAGAGA TATTAATTAA TGAAAGAGAA 301 TTATTATTGA ATGGTGGTAA ACAACCAAAG AAATCGGAAA AGGTAGGAGT TGCAGATTTT 361 GAATTATTGA ATTTAGTTGG TAAAGGTAGT TTTGGTAAAG TTATTCAAGT TAGAAAGAAA 421 GATACTGGTG AAGTGTATGC AATGAAAGTT TTATCAAAGA AACATATCGT AGAGCATAAC 481 GAAGTCGAAC ATACATTGAG TGAGCGTAAT ATTCTTCAAA AGATCAATCA CCCATTTTTG 541 GTTAATCTCA ACTACAGTTT TCAAACAGAG GATAAGCTTT ACTTTATCTT GGATTATGTT 601 AATGGTGGTG AGTTATTCTA TCATCTTCAA AAGGACAAAA AGTTTACAGA GGATCGTGTC 661 CGTTATTATG GCGCAGAGAT CGTATTGGCA TTGGAACATT TACATTTGTC GGGTGTCATC 721 TATAGAGATT TGAAACCAGA GAATTTACTA CTCACCAACG AGGGTCACAT TTGCATGACC 781 GATTTCGGTC TTTGCAAAGA GGGTCTATTG ACACCAACCG ACAAAACTGG TACTTTCTGT 841 GGTACTCCTG AATATTTAGC ACCCGAAGTA CTTCAAGGCA ATGGTTATGG TAAACAAGTG 901 GATTGGTGGA GTTTTGGTTC TCTCCTCTAT GAAATGCTCA CTGGTTTACC ACCATTCTAC 961 AATCAAGACG TCCAAGAGAT GTATCGTAAG ATCATGATGG AGAAATTATC TTTCCCACAT 1021 TTCATTTCTC CAGATGCTCG TTCCCTCTTG GAACAACTCT TGGAAAGAGA TCCTGAAAAA 1081 AGACTTGCCG ATCCAAATCT TATTAAAAGA CATCCTTTCT TCCGTTCCAT CGATTGGGAA 1141 CAATTATTCC AAAAGAATAT TCCACCACCA TTCATTCCAA ATGTTAAAGG TTCTGCTGAT 1201 ACCTCTCAAA TTGATCCAGT TTTCACTGAT GAAGCTCCTT CTTTAACTAT GGCTGGTGAA 1261 TGTGCTTTAA ATCCGCAACA ACAAAAAGAT TTTGAAGGAT TTACATATGT CGCTGAATCT 1321 GAACATTTAA GATAA GENBANK ID: NM_000102.2 DEFINITION HOMO SAPIENS CYTOCEROME P450, SUBFANILY XVII (STEROID 17-ALPHA--HYDROXYLASE), ADRENAL HYPERPLASIA (CYP17), MRNA. VERSION NM_000102.2 GI:13904854 CDS 61..1587 1 GAGTTGCCAC AGCTCTTCTA CTCCACTGCT GTCTATCTTG CCTGCCGGCA CCCAGCCACC 61 ATGTGGGAGC TCGTGGCTCT CTTGCTGCTT ACCCTAGCTT ATTTGTTTTG GCCCAAGAGA 121 AGGTGCCCTG GTGCCAAGTA CCCCAAGAGC CTCCTGTCCC TGCCCCTGGT GGGCAGCCTG 181 CCATTCCTCC CCAGACATGG CCATATGCAT AACAACTTCT TCAAGCTGCA GAAAAAATAT 241 GGCCCCATCT ATTCTGTTCG TATGGGCACC AAGACTACAG TGATTGTCGG CCACCACCAG 301 CTGGCCAAGG AGGTGCTTAT TAAGAAGGGC AAGGACTTCT CTGGGCGGCC TCAAATGGCA 361 ACTCTAGACA TCGCGTCCAA CAACCGTAAG GGTATCGCCT TCGCTGACTC TGGCGCACAC 421 TGGCAGCTGC ATCGAAGGCT GGCGATGGCC ACCTTTGCCC TGTTCAAGGA TGGCGATCAG 481 AAGCTGGAGA AGATCATTTG TCAGGAAATC ACTACATTGT GTGATATGCT GGCCACCCAC 541 AACGGACAGT CCATAGACAT CTCCTTTCCT GTCTTCGTGG CGGTAACCAA TGTCATCTCC 601 TTGATCTGCT TCAATACCTC CTACAAGAAT GGCGACCCTG AGTTGAATGT CATACAGAAT 661 TACAATGAAG GCATCATAGA CAACCTCAGC AAACACAGCC TGCTGGACCT AGTCCCCTGG 721 TTGAAGATTT TCCCCAACAA AACCCTGGAA AAATTAAAGA GCCATGTTAA AATACGAAAT 781 GATCTGCTGA ATAAAATACT TGAAAATTAC AAGGAGAAAT TCCGGAGTGA CTCTATCACC 841 AACATGCTGG ACACACTGAT CCAAGCCAAG ATGAACTCAG ATAATGGCAA TGCTGGCCCA 901 GATCAAGATT CAGAGGTGCT TTCAGATAAC CACATTCTCA CCACCATAGG GGACATCTTT 961 GGGGCTGGCG TGGAGACCAC CACCTCTGTG GTTAAATGGA CCCTGGCCTT CCTGCTGCAC 1021 AATCCTCAGG TGAAGAAGAA GCTCTACGAG GAGATTGACC AGAATGTGGG TTTCAGCCGC 1081 ACACCAACTA TCAGTGACCG TAACCGTCTC CTCCTGCTGG AGGCCACCAT CGGAGAGGTG 1141 CTTCGCCTCA GGCCCGTGGC CCCTATGCTC ATCCCCCACA AGGCCAACGT TGACTCCAGC 1201 ATCGGTGAGT TTGCTGTGGA CAAGGGCACA GAAGTTATCA TCAATCTGTG GGCGCTGCAT 1261 CACAATGAGA AGGAGTGGCA CCAGCCGGAT CAGTTCATGC CTGAGCGTTT CTTGAATCCA 1321 GCGGGGACCC AGCTCATCTC ACCGTCAGTA AGCTATTTGC CCTTCGGAGC AGGACCTCGC 1381 TCCTGTATAG GTGAGATCCT GGCCCGCCAG GAGCTCTTCC TCATCATGGC CTGGCTGCTG 1441 CAGAGGTTCG ACCTGGAGGT GCCAGATGAT GGGCAGCTGC CCTCCCTGGA AGGCATCCCC 1501 AAGGTGGTCT TTCTGATCGA CTCTTTCAAA GTGAAGATCA AGGTGCGCCA GGCCTGGAGG 1561 GAAGCCCAGG CTGAGGGTAG CACCTAAAGG CTGTAACTCA CAGCCCCTGT CCACCCTATG 1621 TGGCCCCACA ACACAGATTT AGAGATACAA CCCCCCACCC TTCTCCGCCA TTCTTCCCTA 1681 CTCCCAACCC ACTCTGCCTT CTTTTTCAGC TTGTGGCAAT GCCAGTGATG TGCATAAACA 1741 GTTTTTTTTT TTTCC GENBANK ID: NM_001662 DEFINITION HOMO SAPIENS ADP-RIBOSYLATION FACTOR 5 (ARF5), MRNA. VERSION NM_001662.2 GI:6995999 CDS 37..579 /CODON_START=1 1 CCGCGTCGGT GCCCGCGCCC CTCCCCGGGC CCCGCCATGG GCCTCACCGT GTCCGCGCTC 61 TTTTCGCGGA TCTTCGGGAA GAAGCAGATG CGGATTCTCA TGGTTGGCTT GGATGCGGCT 121 GGCAAGACCA CAATCCTGTA CAAACTGAAG TTGGGGGAGA TTGTCACCAC CATCCCAACC 181 ATAGGCTTCA ATGTAGAAAC AGTGGAATAT AAGAACATCT GTTTCACAGT CTGGGACGTG 241 GGAGGCCAGG ACAAGATTCG GCCTCTGTGG CGGCACTACT TCCAGAACAC TCAGGGCCTC 301 ATCTTTGTGG TGGACAGTAA TGACCGGGAG CGGGTCCAAG AATCTGCTGA TGAACTCCAG 361 AAGATGCTGC AGGAGGACGA GCTGCGGGAT GCAGTGCTGC TGGTATTTGC CAACAAGCAG 421 GACATGCCCA ACGCCATGCC CGTGAGCGAG CTGACTGACA AGCTGGGGCT ACAGCACTTA 481 CGCAGCCGCA CGTGGTATGT CCAGGCCACC TGTGCCACCC AAGGCACAGG TCTGTACGAT 541 GGTCTGGACT GGCTGTCCCA CGAGCTGTCA AAGCGCTAAC CAGCCAGGGG CAGGCCCCTG 601 ATGCCCGGAA GCTCCTGCGT GCATCCCCGG GATGACCAGA CTCCCGGACT CCTCAGGCAG 661 TGCCCTTTCC TCCCACTTTT CCTCCCCCAT AGCCACAGGC CTCTGCTCCT GCTCCTGCCT 721 GCATGTTCTC TCTGTTGTTG GAGCCTGGAG CCTTGCTCTC TGGGCACAGA GGGGTCCACT 781 CTCCTGCCTG CTGGGACCTA TGGAAGGGGC TTCCTGGCCA AGGCCCCCTC TTCCAGAGGA 841 GGAGCAGGGA TCTGGGTTTC CTTTTTTTTT TCTGTTTTGG GTGTACTCTA GGGGCCAGGT 901 TGGGAGGGGG AAGGTGAGGG CTTCGGGTGG TGCTATAATG TGGCACTGGA TCTTGAGTAA 961 TAAATTTGCT GTGGTTTG GENBANK 10: XM_048886.3 DEFINITION HOMO SAPIENS MICROSOMAL GLUTATHIONE 5-TRANSFERASE 1 (MGST1), MRNA. VERSION XM_048886.3 GI:18580621 CDS 89..556 /CODON_START=1 1 AGTCCCTGCA TTGCGCGCGA CCCGGCGGCG GGACAGGCTT GCTGCTTCCT CCTCCTCGGC 61 CTCACCATTC CAGACCAAAA TTGAAAAAAT GGTTGACCTC ACCCAGGTAA TGGATGATGA 121 AGTATTCATG GCTTTTGCAT CCTATGCAAC AATTATTCTT TCAAAAATGA TGCTTATGAG 181 TACTGCAACT GCATTCTATA GATTGACAAG AAAGGTTTTT GCCAATCCAG AAGACTGTGT 241 AGCATTTGGC AAAGGAGAAA ATGCCAAGAA GTATCTTCGA ACAGATGACA GAGTAGAACG 301 TGTACGCAGA GCCCACCTGA ATGACCTTGA AAATATTATT CCATTTCTTG GAATTGGCCT 361 CCTGTATTCC TTGAGTGGTC CCGACCCCTC TACAGCCATC CTGCACTTCA GACTATTTGT 421 CGGAGCACGG ATCTACCACA CCATTGCATA TTTGACACCC CTTCCCCAGC CAAATAGAGC 481 TTTGAGTTTT TTTGTTGGAT ATGGAGTTAC TCTTTCCATG GCTTACAGGT TGCTGAAAAG 541 TAAATTGTAC CTGTAAAGAA AATCATACAA CTCAGCATCC AGTTGGCTTT TTAAGAATTC 601 TGTACTTCCA ATTTATAATG AATACTTTCT TAGATTTTAG GTAGGAGGGG AGCAGAGGAA 661 TTATGAACTG GGGTAAACCC ATTTTGAATA TTAGCATTGC CAATATCCTG TATTCTTGTT 721 TTACATTTGG ATTAGAAATT TAACATAGTA ATTCTTAAGT CTTTTGTCTG ATTTTTAAAG 781 TACTTTCTTA TAAATTTGGA TCATGTTATG ATTTGTAACA TTCACACAAC ACCTCACTTT 841 TGAATCTATA AAAGAATTGC ACGTATGAGA AACCTATATT TCAATACTGC TGAAACAGAC 901 ATGAAATAAA GAATTTAAAG AATG GENBANK ID: X02162 DEFINITION HUMAN MRNA FOR AFOLIPOPROTEIN AI (APO AI)=. VERSION X02162.1 GI:28771 CDS 87..890 /CODON_START=1 1 GAATTCAAAA AAAAAAGAAA AAAAAAAAAA AAAAAAAAAA AAAAAAAGAG AGACTGCGAG 61 AAGGAGGTCC CCCACGGCCC TTCAGGATGA AAGCTGCGGT GCTGACCTTG GCCGTGCTCT 121 TCCTGACGGG GAGCCAGGCT CGGCATTTCT GGCAGCAAGA TGAACCCCCC CAGAGCCCCT 181 GGGATCGAGT GAAGGACCTG GCCACTGTGT ACGTGGATCT GCTCAAAGAC AGCGGCAGAG 241 ACTATGTGTC CCAGTTTGAA GGCTCCGCCT TGGGAAAACA GCTAAACCTA AAGCTCCTTG 301 ACAACTGCGA CAGCCTGACC TCCACCTTCA GCAAGCTGCG CGAACAGCTC GGCCCTGTGA 361 CCCAGGAGTT CTGGGATAAC CTGGAAAAGG AGACAGAGGG CCTGAGGCAG GAGATGAGCA 421 AGGATCTGGA GGAGGTGAAG GCCAAGGTGC AGCCCTACCT GGACGACTTC CAGAAGAAGT 481 GGCAGGAGGA GATGGAGCTC TACCGCCAGA AGGTGGAGCC GCTGCGCGCA GAGCTCCAAG 541 AGGGCGCGCG CCAGAAGCTG CACGAGCTGC AAGAGAAGCT GAGCCCACTG GGCGAGGAGA 601 TGCGCGACCG CGCGCGCGCC CATCTGGACG CGCTGCGCAC GCATCTGGCC CCCTACAGCG 661 ACGAGCTGCG CCAGCGCTTG GCCGCGCGCC TTGAGCCTCT CAAGGACAAC GGCGGCGCCA 721 GACTGGCCGA GTACCACGCC AAGGCCACCG AGCATCTGAG CACGCTCAGC GAGAAGGCCA 781 AGCCCGCGCT CGAGGACCTC CGCCAAGCCC TCCTGCCCGT GCTGGAGAGC TTCAAGGTCA 841 GCTTCCTGAG CGCTCTCGAC GACTACACTA AGAAGCTCAA CACCCAGTGA GCCGCCCGCC 901 GCCGCCCCCC TTCCCGGTGC TCAGAATAAA CGTTTCCAAA GTGGGAAAAA AAAAAAAAAG 961 AATTC GENBANK ID: XM_007441.1 DEFINITION HOMO SAPIENS PRESENILIN 1 (ALZHEIS2ER DISEASE 3) (PSEN1), MRNA. VERSION XM_007441.1 GI:11435041 CDS 249..1652 /CODON_START=1 1 TGGGACAGGC AGCTCCGGGG TCCGCGGTTT CACATCGGAA ACAAAACAGC GGCTGGTCTG 61 GAAGGAACCT GAGCTACGAG CCGCGGCGGC AGCGGGGCGG CGGGGAAGCG TATACCTAAT 121 CTGGGAGCCT GCAAGTGACA ACAGCCTTTG CGGTCCTTAG ACAGGTTGGG CTGGAGGAGA 181 ACACATGAAA GAAAGAACCT CAAGAGGCTT TGTTTTCTGT GAAACAGTAT TTCTATACAG 241 TTGCTCCAAT GACAGAGTTA CCTGCACCGT TGTCCTACTT CCAGAATGCA CAGATGTCTG 301 AGGACAACCA CCTGAGCAAT ACTGTACGTA GCCAGAATGA CAATAGAGAA CGGCAGGAGC 361 ACAACGACAG ACGGAGCCTT GGCCACCCTG AGCCATTATC TAATGGACGA GCGCAGGGTA 421 ACTCCCGGCA GGTGGTGGAG CAAGATGAGG AAGAAGATGA GGAGCTGACA TTGAAATATG 481 GCGCCAAGCA TGTGATCATG CTCTTTGTCC CTGTGACTCT CTGCATGGTG GTGGTCGTGG 541 CTACCATTAA GTCAGTCAGC TTTTATACCC GGAAGGATGG GCAGCTAATC TATACCCCAT 601 TCACAGAAGA TACCGAGACT GTGGGCCAGA GAGCCCTGCA CTCAATTCTG AATGCTGCCA 661 TCATGATCAG TGTCATTGTT GTCATGACTA TCCTCCTGGT GGTTCTGTAT AAATACAGGT 721 GCTATAAGGT CATCCATGCC TGGCTTATTA TATCATCTCT ATTGTTGCTG TTCTTTTTTT 781 CATTCATTTA CTTGGGGGAA GTGTTTAAAA CCTATAACGT TGCTGTGGAC TACATTACTG 841 TTGCACTCCT GATCTGGAAT TTTGGTGTGG TGGGAATGAT TTCCATTCAC TGGAAAGGTC 901 CACTTCGACT CCAGCAGGCA TATCTCATTA TGATTAGTGC CCTCATGGCC CTGGTGTTTA 961 TCAAGTACCT CCCTGAATGG ACTGCGTGGC TCATCTTGGC TGTGATTTCA GTATATGATT 1021 TAGTGGCTGT TTTGTGTCCG AAAGGTCCAC TTCGTATGCT GGTTGAAACA GCTCAGGAGA 1081 GAAATGAAAC GCTTTTTCCA GCTCTCATTT ACTCCTCAAC AATGGTGTGG TTGGTGAATA 1141 TGGCAGAAGG AGACCCGGAA GCTCAAAGGA GAGTATCCAA AAATTCCAAG TATAATGCAG 1201 AAAGCACAGA AAGGGAGTCA CAAGACACTG TTGCAGAGAA TGATGATGGC GGGTTCAGTG 1261 AGGAATGGGA AGCCCAGAGG GACAGTCATC TAGGGCCTCA TCGCTCTACA CCTGAGTCAC 1321 GAGCTGCTGT CCAGGAACTT TCCAGCAGTA TCCTCGCTGG TGAAGACCCA GAGGAAAGGG 1381 GAGTAAAACT TGGATTGGGA GATTTCATTT TCTACAGTGT TCTGGTTGGT AAAGCCTCAG 1441 CAACAGCCAG TGGAGACTGG AACACAACCA TAGCCTGTTT CGTAGCCATA TTAATTGGTT 1501 TGTGCCTTAC ATTATTACTC CTTGCCATTT TCAAGAAAGC ATTGCCAGCT CTTCCAATCT 1561 CCATCACCTT TGGGCTTGTT TTCTACTTTG CCACAGATTA TCTTGTACAG CCTTTTATGG 1621 ACCAATTAGC ATTCCATCAA TTTTATATCT AGCATATTTG CGGTTAGAAT CCCATGGATG 1681 TTTCTTCTTT GACTATAACA AAATCTGGGG AGGACAAAGG TGATTTTCCT GTGTCCACAT 1741 CTAACAAAGT CAAGATTCCC GGCTGGACTT TTGCAGCTTC CTTCCAAGTC TTCCTGACCA 1801 CCTTGCACTA TTGGACTTTG GAAGGAGGTG CCTATAGAAA ACGATTTTGA ACATACTTCA 1861 TCGCAGTGGA CTGTGTCCCT CGGTGCAGAA ACTACCAGAT TTGAGGGACG AGGTCAAGGA 1921 GATATGATAG GCCCGGAAGT TGCTGTGCCC CATCAGCAGC TTGACGCGTG GTCACAGGAC 1981 GATTTCACTG ACACTGCGAA CTCTCAGGAC TACCGTTACC AAGAGGTTAG GTGAAGTGGT 2041 TTAAACCAAA CGGAACTCTT CATCTTAAAC TACACGTTGA AAATCAACCC AATAATTCTG 2101 TATTAACTGA ATTCTGAACT TTTCAGGAGG TACTGTGAGC AAGAGCAGGC ACCAGCAGCA 2161 GAATGGGGAA TCGACAGGTG GGCAGCGGTT CCAGCTTCCC TTTGATTTTT TGCTGCAGAC 2221 TCATCCTTTT TAAATGAGAC TTGTTTTCCC CTCTCTTTGA GTCAAGTCAA ATATGTAGAT 2281 TGCCTTTGGC AATTCTTCTT CTCAAGCACT GACACTCATT ACCGTCTGTG ATTGCCATTT 2341 CTTCCCAAGG CCAGTCTGAA CCTGAGGTTG CTTTATCCTA AAAGTTTTAA CCTCAGGTTC 2401 CAAATTCAGT AAATTTTGGA AACAGTACAG CTATTTCTCA TCAATTCTCT ATCATGTTGA 2461 AGTCAAATTT GGATTTTCCA CCAAATTCTG AATTTCTAGA CATACTTGTA CGCTCACTTG 2521 CCCCAGATGC CTCCTCTGTC CTCATTCTTC TCTCCCACAC AAGCAGTCTT TTTCTACAGC 2581 CAGTAAGGCA GCTCTGTCGT GGTAGCAGAT GGTCCCATTA TTCTAGGGTC TTACTCTTTG 2641 TATGATGAAA AGAATGTGTT ATGAATCGGT GCTGTCAGCC CTGCTGTCAG ACCTTCTTCC 2701 ACAGCAAATG AGATGTATGC CCAAAGACGG TAGAATTAAA GAAGAGTAAA ATGGCTGTTG 2761 AAGC GENBANK ID: XM_087242.1 DEFINITION HOMO SAPIENS ARGINYL AMINOPEPTIDASE (AMINOPEPTIDASE B) -LIKE 1(RNPEPL1), MRNA. VERSION XM_087242.1 GI:18600482 CDS 700..1764 /CODON_START=1 1 GTGGACCCGT TCACCGACTA CGGCTCCTCC CTCACCGTCA CGCTGCCGCC CGAGCTGCAG 61 GCGCACCAGC CCTTCCAGGT CATCCTGCGG TACACCTCGA CCGACGCCCC CGCCATCTGG 121 TGGCTGGACC CAGAGCTGAC CTATGGCTGC GCCAAGCCCT TCGTCTTCAC CCAGGGCCAC 181 TCCGTGTGCA ACCGCTCCTT CTTCCCGTGC TTCGACACAC CTGCCGTGAA GTGCACCTAC 241 TCTGCCGTCG TCAAGGCGCC ATCGGGGGTG CAGGTGCTGA TGAGTGCCAC CCGGAGTGCA 301 TACATGGAGG AAGAAGGCGT CTTCCACTTC CACATGGAGC ACCCCGTGCC CGCCTACCTC 361 GTGGCCCTGG TGGCCGGAGA CCTCAAGCCG GCAGACATCG GGCCCAGGAG CCGCGTGTGG 421 GCCGAGCCAT GCCTCCTGCC CACGGCCACC AGCAAGCTGT CGGGCGCAGT GGAGCAGTGG 481 CTGAGTGCAG CTGAGCGGCT GTATGGGCCC TACATGTGGG GCAGGTACGA CATTGTCTTC 541 CTGCCACCCT CCTTCCCCAT CGTGGCCATG GAGAACCCCT GCCTCACCTT CATCATCTCC 601 TCCATCCTGG AGAGCGATGA GTTCCTGGTC ATCGATGTCA TCCACGAGGT GGCCCACAGT 661 TGGTTCGGCA ACGCTGTCAC CAACGCCACG TGGGAAGAGA TGTGGCTGAG CGAGGGCCTG 721 GCCACCTATG CCCAGCGCCG TATCACCACC GAGACCTACG GTGCTGCCTT CACCTGCCTG 781 GAGACTGCCT TCCGCCTGGA CGCCCTGCAC CGGCAGATGA AGCTTCTGGG AGAGGACAGG 841 CCGGTCAGCA AACTGCAGGT CAAGCTGGAG CCAGGAGTGA ATCCCAGCCA CCTGATGAAC 901 CTGTTCACCT ACGAGAAGGG CTACTGCTTC GTGTACTACC TGTCCCAGCT CTGCGGAGAC 961 CCACAGCGCT TTGATGACTT TCTCCGAGCC TATGTGGAGA AGTACAAGTT CACCAGCGTG 1021 GTGGCCCAGG ACCTGCTGGA CTCCTTCCTG AGCTTCTTCC CGGAGCTGAA GGAGCAGAGC 1081 GTGGACTGCC GGGCAGGGCT GGAATTCGAG CGCTGGCTCA ATGCCACAGG CCCGCCGCTG 1141 GCTGAGCCGG ACCTGTCTCA GGGATCCAGC CTGACCCGGC CCGTGGAGGC CCTTTTCCAG 1201 CTGTGGACCG CAGAACCTCT GGACCAGGCA GCTGCCTCGG CCAGCGCCAT TGACATCTCC 1261 AAGTGGAGGA CCTTCCAGAC AGCACTCTTC CTGGACCGGC TCCTGGATGG GTCCCCGCTG 1321 CCGCAGGAGG TGGTGATGAG CCTGTCCAAG TGCTACTCCT CCCTGCTGGA CTCGATGAAC 1381 GCTGAGATCC GCATCCGCTG GCTGCAGATT GAGGTCCGCA ACGACTACTA TCCTGACCTC 1441 CACAGGGTGC GGCGCTTCCT GGAGAGCCAG ATGTCACGCA TGTACACCAT CCCGCTGTAC 1501 GAGGACCTCT GCACCGGTGC CCTCAAGTCC TTCGCGCTGG AGGTCTTCTA CCAGACGCAG 1561 GGCCGGCTGC ACCCCAACCT GCGCAGAGCC ATCCAGCAGA TCCTGTCCCA GGGCCTGGGC 1621 TCCAGCACAG AGCCCGCCTC AGAGCCCAGC ACGGAGCTGG GCAAGGCTGA AGCAGACACA 1681 GACTCGGACG CACAGGCCCT GCTGCTTGGG GACGAGGCCC CCAGCAGTGC CATCTCTCTC 1741 AGGGACGTCA ATGTGTCTGC CTAGCCCTGT TGGCGGGCTG ACCCTCGACC TCCCAGACAC 1801 CACAATTGTG CCTTCTGTGG GCCAGGCCTG CCATGACTGC GTCTCGGCTC TGGCCATGAG 1861 CTCTGCCCAG GCCCACAAGC CCCTCCCCTG GGCTCTCCCA GGCAGGGAGA ATGGGGAGAG 1921 GGACCTCCTT GTGTCTGGCA GAGACCTGTG GACCTGGCCT CCCCACTCCC AGCTCTCTTG 1981 CACTGCAGGC CCTGGGGCCA GCCCGCACAC ACCATGCCTC CTGTCTCAAC ACTGACAGCT 2041 GTGCCTAGCC CCGGATGCCA GCACCTGCCA GGTGCCGCCC CGGGGCAAGG GCCCCAGCAG 2101 CCCTATGGTG ACCGCCACAC TGTGCCTTAA TGTCTGCCGG GGGCCCAGGC TGTGCTGTCC 2161 CTGCAGCACG CCTCCTTGCA GGGATCTGAG CCACCCTCCC CGCACAGCCC TGCACCCCGC 2221 CCCTAGGGTT GGCAGCCTCA GTTGGCCCCT GGCAGAGGAA CAAGGACACA GACATTCCCT 2281 CAGTGTGGGG GGCAGGGGAC ACAGGGAGAG GATGGTTGTC CCTGGGGAGG GCCCTCTGGC 2341 CCCAGGCAAC CTTAGCCCCT CAGAACAGGG AGTCCCAGGA CCCAGGGAGA GTGTGGGGAC 2401 AGGACAGCCT GTCTCTTGTA GCTTCCTGGG GTGGGAGGCA CAGGGGCAAA GCAATACCCC 2461 AGGGAAAGTG GGAGGTGGTG CTGGTGCTCT CTCCAGGCCC ACCATGCTGG GAGAGGCGGC 2521 CAGAGCCTGG GGCCTCCAGC CTGGGACTGC TGTGATGGGG TATCACGGTG ATGGTCCCAT 2581 TAAACTTCCA CTCTGCAAAC CTG GENBANK ID: S90469 DEFINITION CYTOCHROME P450 REDUCTASE [HUMAN, PLACENTA, MRNA PARTIAL, 2403 NT]. VERSION S90469.1 GI:247306 CDS 1..2031 CODO_START=1 1 GGAGACTCCC ACGTGGACAC CAGCTCCACC GTGTCCGAGG CGGTCGCCGA AGAAGTATCT 61 CTTTTCAGCA TGACGCACAT GATTCTGTTT TCGCTCATCG TGGGTCTCCT AACCTACTGG 121 TTCCTCTTCA GAAAGAAAAA AGAAGAAGTC CCCGACTTCA CCAAAATTCA GACATTGACC 181 TCCTCTGTCA GAGAGAGGAG CTTTGTGGAA AAGATGAAGA AAACGGGGAG GAACATCATC 241 GTGTTCTACG GCTCCCAGAC GGGGACTGCA GAGGAGTTTG CCAACCGCCT GTCCAAGGAC 301 GCCCACCGCT ACGGGATGCG AGGCATGTCA GCGGACCCTG AGGAGTATGA GCTGCCGGAC 361 CTGAGCAGCC TGCCAGAGAT CGACAACGCC CTGGTGGTTT TCTGCATGGC CACGTACGCT 421 GAGGGAGACC CCACCGACAA TGCCCAGGAC TTCTACGACT GGCTGCAGGA GACAGACGTG 481 GATCTCTCTG GGGTCAAGTT CGCGGTGTTT GGTCTTGGGA ACAAGACCTA CGAGCACTTC 541 AATGCCATGG GCAAGTACGT GGACAAGCGG CTGGAGCAGC TCGGCGCCCA GCGCATCTTT 601 GAGCTGGGGT TGGGCGACGA CGATGGGAAC TTGGAGGAGG ACTTCATCAC CTGGCGAGAG 661 CAGTTCTGGC CGGCCGTGTG TGAACACTTT GGGGTGGAAG CCACTGGCGA GGAGTCCAGC 721 ATTCGCCAGT ACGAGCTTGT GGTCCACACC GACATAGATG CGGCCAAGGT GTACATGGGG 781 GAGATGGGCC GGCTGAAGAG CTACGAGAAC CAGAAGCCCC CCTTTGATGC CAAGAATCCG 841 TTCCTGGCTG CAGTCACCAC CAACCGGAAG CTGAACCAGG GAACCGAGCG CCACCTCATG 901 CACCTGGAAT TGGACATCTC GGACTCCAAA ATCAGGTATG AATCTGGGGA CCACGTGGCT 961 GTGTACCCAG CCAACGACTC TGCTCTCGTC AACCAGCTGG GCAAAATCCT GGGTGCCGAC 1021 CTGGACGTCG TCATGTCCCT GAACAACCTG GATGAGGAGT CCAACAAGAA GCACCCATTC 1081 CCGTGCCCTA CGTCCTACCG CACGGCCCTC ACCTACTACC TGGACATGAC CAACCCGCCG 1141 CGTACCAACG TGCTGTACGA GCTGGCGCAG TACGCCTCGG ACCGCTGGGA GCAGGAGCTG 1201 CTGCGCAAGA TGGCCTCCTC CTCCGGCGAG GGCAAGGAGC TGTACCTGAG CTGGGTGGTG 1261 GAGGGCGGGA GGCACATCCT GGCCATCCTG CAGGACTGCC CGTCCCTGCG GCCCCCCATC 1321 GACCACCTGT GTGAGCTGCT GCCGCGCCTG CAGGCCCGCT ACTACTCCAT CGCCTCATCC 1381 TCCAAGGTCC ACCCCAACTC TGTGCACATC TGTGCGGTGG TTGTGGAGTA CGAGACCAAG 1441 GCCGGCCGCA TCAACAAGGG CGTGGCCACC AACTGGCTGC GGGCCAAGGA GCCTGTCGGG 1501 GAGAACGGCG GCCGTGCGCT GGTGCCCATG TTCGTGCGCA AGTCCCAGTT ACGCCTGCCC 1561 TTCAAGGCCA CCACGCCTGT CATCATGGTG GGCCCCGGCA CCGGGTGGCA CCCTTTCATA 1621 GGCTTCATCC AGGAGCGGGC CTGGCTGCGA CAGCAGGGCA AGGAGGTGGG GGAGACGCTG 1681 CTGTACTACG GCTGCCGCCG CTCGGATGAG GACTACCTGT ACGGGGAGGA GCTGGCGCAG 1741 TTCCACAGGG ACGGTGCGCT CACCCAGCTC AACGTGGCCT TCTCCCGGGA GCAGTCCCAC 1801 AAGGTCTACG TCCAGCACCT GCTAAAGCAA GACCGAGAGC ACCTGTGGAA GTTGATCGAA 1861 GGCGGTGCCC ACATCTACGT CTGTGGGGAT GCACGGAACA TGGCCAGGGA TGTGCAGAAC 1921 ACCTTCTACG ACATCGTGGC TGAGCTCGGG GCCATGGAGC ACGCGCAGGC GGTGGACTAC 1981 ATCAAGAAAC TGATGACCAA GGGCCGCTAC TCCCTGGACG TGTGGAGCTA GGGGCCTGCC 2041 TGCCCCACCC ACCGCACAGA CTCCGGCCTG TAATCAGCTC TCCTGGCTCC CTCCCGTAGT 2101 CTCCTGGGTG TGTTTGGCTT GGCCTTGGCA TGGGCGCAGG CCCAGTGACA AAGACTCCTC 2161 TGGGCCTGGG GTGCATCCTC CTCAGCCCCC AGGCCAGGTG AGGTCCACCG GCCCCTGGCA 2221 GCACAGCCCA GGGCCTGCAT GGGGGCACCG GGCTCCATGC CTCTGGAGCC TCTGGCCCTC 2281 GGTGGCTGCA CAGAAGGGCT CTTTCTCTCT GCTGAGCTGG CCCAGCCCCT CCACGTGATT 2341 TCCAGTGAGT GTAAATAATT TTAAATAACC TCTGGCCCTT GGAATAAAGT TCTGTTTTCT 2401 GTA GENBANK ID: NM_006254.1 DEFINITION HOMO SAPIENS PROTEIN KINASE C, DELTA (PRKCD), MRNA. VERSION NM_006254.1 GI:5453969 CDS 59..2089 /CODON_START=1 1 TGCCGCCGCG ACCCTTGGCG CCTGCCCCTG CAACGGGAGC CCCACTGCAG GCCCCACCAT 61 GGCGCCGTTC CTGCGCATCG CCTTCAACTC CTATGAGCTG GGCTCCCTGC AGGCCGAGGA 121 CGAGGCGAAC CAGCCCTTCT GTGCCGTGAA GATGAAGGAG GCGCTCAGCA CAGAGCGTGG 181 GAAAACACTG GTGCAGAAGA AGCCGACCAT GTATCCTGAG TGGAAGTCGA CGTTCGATGC 241 CCACATCTAT GAGGGGCGCG TCATCCAGAT TGTGCTAATG CGGGCAGCAG AGGAGCCAGT 301 GTCTGAGGTG ACCGTGGGTG TGTCGGTGCT GGCCGAGCGC TGCAAGAAGA ACAATGGCAA 361 GGCTGAGTTC TGGCTGGACC TGCAGCCTCA GGCCAAGGTG TTGATGTCTG TTCAGTATTT 421 CCTGGAGGAC GTGGATTGCA AACAATCTAT GCGCAGTGAG GACGAGGCCA AGTTCCCAAC 481 GATGAACCGC CGCGGAGCCA TCAAACAGGC CAAAATCCAC TACATCAAGA ACCATGAGTT 541 TATCGCCACC TTCTTTGGGC AACCCACCTT CTGTTCTGTG TGCAAAGACT TTGTCTGGGG 601 CCTCAACAAG CAAGGCTACA AATGCAGGCA ATGTAACGCT GCCATCCACA AGAAATGCAT 661 CGACAAGATC ATCCGCAGAT CCACTGGCAC CGCCGCCAAC AGGCGGGACA CTATATTCCA 721 GAAAGAACGC TTCAACATCC ACATGCCGCA CCGCTTCAAG GTTCACAACT ACATGAGCCC 781 CACCTTCTGT GACCACTGCG GCAGCCTGCT CTGGGGACTG GTGAAGCAGG GATTAAAGTG 841 TGAAGACTGC GGCATGAATG TGCACCATAA ATGCCGGGAG AAGGTGGCCA ACCTCTGCGG 901 CATCAACCAG AAGCTTTTGG CTGAGGCCTT GAACCAAGTC ACGCAGAGAG CCTCCCGGAG 961 ATCAGACTCA GCCTCCTCAG AGCCTGTTGG GATATATCAG GGTTTCGAGA AGAAGACCGG 1021 AGTTGCTGGG GAGGACATGC AAGACAACAG TGGGACCTAC GGCAAGATCT GGGAGGGCAG 1081 CAGCAAGTGC AACATCAACA ACTTCATCTT CCACAAGGTC CTGGGCAAAG GCAGCTTCGG 1141 GAAGGTGCTG CTTGGAGAGC TGAAGGGCAG AGGAGACTAC TCTGCCATCA AGGCCCTCAA 1201 GAAGGATGTG GTCCTGATCG ACGACGACGT GGAGTGCACC ATGGTTGAGA AGCGGGTGCT 1261 GACACTTGCC GCAGAGAATC CCTTTCTCAC CCACCTCATC TGCACCTTCC AGACCAAGGA 1321 CCACCTGTTC TTTGTGATGG AGTTCCTCAA CGGGGGGGAC CTGATGTACC ACATCCAGGA 1381 CAAAGGCCGC TTTGAACTCT ACCGTGCCAC GTTTTATGCC GCTGAGATAA TGTGTGGACT 1441 GCAGTTTCTA CACAGCAAGG GCATCATTTA CAGGGACCTC AAACTGGACA ATGTGCTGTT 1501 GGACCGGGAT GGCCACATCA AGATTGCCGA CTTTGGGATG TGCAAAGAGA ACATATTCGG 1561 GGAGAGCCGG GCCAGCACCT TCTGCGGCAC CCCTGACTAT ATCGCCCCTG AGATCCTACA 1621 GGGCCTGAAG TACACATTCT CTGTGGACTG GTGGTCTTTC GGGGTCCTTC TGTACGAGAT 1681 GCTCATTGGC CAGTCCCCCT TCCATGGTGA TGATGAGGAT GAACTCTTCG AGTCCATCCG 1741 TGTGGACACG CCACATTATC CCCGCTGGAT CACCAAGGAG TCCAAGGACA TCCTGGAGAA 1801 GCTCTTTGAA AGGGAACCAA CCAAGAGGCT GGGAATGACG GGAAACATCA AAATCCACCC 1861 CTTCTTCAAG ACCATAAACT GGACTCTGCT GGAAAAGCGG AGGTTGGAGC CACCCTTCAG 1921 GCCCAAAGTG AAGTCACCCA GAGACTACAG TAACTTTGAC CAGGAGTTCC TGAACGAGAA 1981 GGCGCGCCTC TCCTACAGCG ACAAGAACCT CATCGACTCC ATGGACCAGT CTGCATTCGC 2041 TGGCTTCTCC TTTGTGAACC CCAAATTCGA GCACCTCCTG GAAGATTGAG GTTCCTGGAC 2101 AGAT GENBANK ID: X61971.1 DEFINITION H. SAPIENS MRNA FOR MACROPAIN SUBUNIT DELTA. VERSION X61971.1 GI:296733 CDS <1..543 /CODON_START=1 1 ATCGCCAATC GAGTGACTGA CAAGCTGACA CCTATTCACG ACCGCATTTT CTGCTGTCGC 61 TCAGGCTCAG CTGCTGATAC CCAGGCAGTA GCTGATGCTG TCACCTACCA GCTCGGTTTC 121 CACAGCATTG AACTGAATGA GCCTCCACTG GTCCACACAG CAGCCAGCCT CTTTAAGGAG 181 ATGTGTTACC GATACCGGGA AGACCTGATG GCGGGAATCA TCATCGCAGG CTGGGACCCT 241 CAAGAAGGAG GGCAGGTCTA CTCAGTGCCT ATGGGGGGTA TGATGGTAAG GCAGTCCTTT 301 GCCATTGGAG GCTCCGGGAG CTCCTACATC TATGGCTATG TTGATGCTAC CTACCGGGAA 361 GGCATGACCA AGGAAGAGTG TCTGCAATTC ACGGCCAATG CTCTCGCTTT GGCCATGGAG 421 CGGGATGGCT CCAGTGGAGG AGTGATCCGC CTGGCAGCCA TTGCAGAGTC AGGGGTAGAG 481 CGGCAAGTAC TTTTGGGAGA CCAGATACCC AAATTCGCCG TTGCCACTTT ACCACCCGCC 541 TGAATCCTGG GATTCTAGTA TGCAATAAGA GATGCCCTGT ACTGATGCAA AATTTAATAA 601 AGTTTGTCAC AGAGAAAAAA AAAA GENBANK ID: AH005909.1 GENBANK ID: XM_088424.1 DEFINITION HOMO SAPIENS RETINOID X RECEPTOR, ALPHA (RXRA), MRNA. VERSION XM_088424.1 GI:18571706 CDS 519..1016 /CODON_START=1 1 AAGCAGAACC TGGCCTCCCT GGCCACAGCA GCCTTACCCA CCGCTCTACG TGTCCCGGGC 61 ACTTCCCGCA GCCTTCCCGT CCCTTTCTCA TCGGCCTTGT AGTTGTACAG TGCTGTTGGT 121 TTGAAAAGGT GATGTGTGGG GAGTGCGGCT CATCACTGAG TAGAGAGGTA GAATTTCTAT 181 TTAACCAGAC CTGTAGTAGT ATTACCAATC CAGTTCAATT AAGGTGATTT TTTGTAATTA 241 TTATTATTTT GGTGGGACAA TCTTTAATTT TCTAAAGATA GCACTAACAT CAGCTCATTA 301 GCCACCTGTG CCTGTCCCCG CCTTGGCCCG GCTGGATGAA GCGGCTTCCC CGCAGGGCCC 361 CCACTTCCCA GTGGCTGCTT CCTGGGGACC CAGGGCACCC CGGCACCTTC AGGCACGCTC 421 CTCAGCTGGT CACCTCCCGG CTTTGCCGTT CAGATGGGGC TCCTGAGGCT CAGGAGTGAA 481 GATGCCACAG AGCCGGGCTC CCCTAGGCTG CGTCGGGCAT GCTTGGAAGC TGGCCTGCCA 541 GGACCTTCCA CCCTGGGGCC TGTGTCAGCC GCCGGCCCTC CGCACCCTGG AAGCACACGG 601 CCTCTGGGAA GGACAGCCCT GACCTTCGGT TTTCCGAGCA CGGTGTTTCC CAAGAATTCT 661 GGGCTTGCCG CCTGGTGGCA GTGCTGGAGA TGACCCCGAG CCCCTCCCCG TGGGGCACCC 721 AGGAGGGCCC TGCCGAAATG TGCAGCCTGT GGGTAGTCGG CTGGTGTCCC TGTCGTGGAG 781 CTGGGGTGCG TGATCTGGTG CTCGTCCACG CAGGTGTGTG GTGTAAACAT GTATGTGCTG 841 TACAGACAGA CGCGTGTGGA GAGAGCCGCA CACCAGCGCC ACCCAGGAAA GGCGGAGCGG 901 TTACCAGTGT TTTGTGTTTA TTTTTAATCA AGACGTTTCC CCTGTTTTCC TATAAATTTG 961 CTTCGTGTAA GCAAGTACAT AAGGACCCTC CTTTGGTGAA ATCCGGGTTC GAATGAATAT 1021 CTCAAGGCAG GAGATGCATC TATTTTAAGA TGCTTTGGAG CAGACAGCTT TAGCCGTTCC 1081 CAATCCTTAG CAATGCCTTA GCTGGGACGC ATAGCTAATA CTTTAGAGAG GATGACAGAT 1141 CCATAAAGAG AGTAAAGATA AGAGAAAATG TCTAAAGCAT CTGGAAAGGT AAAAAAAAAA 1201 AATCTATTTT TGTACAAATG TAATTTTATC CCTCATGTAT ACTTGGATAT GGCGGGGGGA 1261 GGGGTCGGAC TGTTTCGTTT CTGCTTCTAG AGATTGAGGT GAAAGCTTCG TCCGAGAAAC 1321 GCCAGGACAG ACGATGGCAG AGGAGAGGGC TCCTGTGACG GGGGCCAGGG TTGGGAGGAA 1381 ACCGCCGCAA TGGGGGTGTC TTCCCTCGGG GGAGGAGGGT GGGCCTGAGG CTTTCAAGGG 1441 TTTTCTTCCC TTTCGAGTAA TTTTTAAAGC CTTGCTCTGT TGTGTCCTGT TGCCGGCTCT 1501 GGCCTTCCTG TGACTGACTG TGAAGTGGCT TCTCCGTACG ATTGTCTCTG AAACATCGTG 1561 GCCGCAGGTG CCAGGGTTTG ATGGACAGTA GCATTAGAAT TGTGGAAAAG GAACACGCAA 1621 AGGGAGAAGT GTGAGAGGAG AAACAAAATA TGAGCGTTTA AAATACATCG CCATTCAG GENBANK ID: U41745.1 DEFINITION HUMAN PDGF ASSOCIATED PROTEIN MRNA, COMPLETE CDS. VERSION U41745.1 GI:1136583 CDS 22..567 /CODON_START=1 1 GAATTCCGCG GCGGCGCCTC AATGCCTAAA GGAGGAAGAA AGGGAGGCCA CAAAGGCCGG 61 GCGAGGCAGT ATACAAGCCC TGAGGAGATC GACGCGCAGC TGCAGGCTGA GAAGCAGAAG 121 GCCAGGGAAG AAGAGGAGCA AAAAGAAGGT GGAGATGGGG CTGCAGGTGA CCCCAAAAAG 181 GAGAAGAAAT CTCTAGACTC AGATGAGAGT GAGGATGAAG AAGATGACTA CCAGCAAAAG 241 CGCAAAGGCG TTGAAGGGCT CATCGACATC GAGAACCCCA ACCGGGTGGC ACAGACAACC 301 AAAAAGGTCA CACAACTGGA TCTGGACGGG CCAAAGGAGC TTTCGAGGAG AGAACGAGAA 361 GAGATTGAGA AGCAGAAGGC AAAAGAGCGT TACATGAAAA TGCACTTGGC CGGGAAGACA 421 GAGCAAGCCA AGGCTGACCT GGCCCGGCTG GCCATCATCC GGAAACAGCG GGAGGAGGCT 481 GCCCGGAAGA AGGAAGAGGA AAGGAAAGCA AAAGACGATG CCACATTGTC AGGAAAACGA 541 ATGCAGTCAC TCTCCCTGAA TAAGTAACTG CGACCCGTGG GAGGAGATGC CGGGGACCTG 601 GGCCGCGCTG CCAGGACCTC TGCTGTGTCT CGCCCACCCT GTGCCCTGGC GCCGCTGCAA 661 CAGCCCCTCA TGGCCAGGAG CCCCCCATGC CTGGGCCTCC TCTTCATCTT GGCACAGAAA 721 TTGTTTGGGG GATGGGGGGG GGACTGGGGG AGGGGTAGCT GCTATCTTTG AGACAGAAAG 781 ATGCAGGACA GCATTTCATA TGTAACCATT TGAATGTTTT TGCTGTTTTT AGAATTC GENBANK ID: AH002617.1 GENBANK ID: XM_034862.1 DEFINITION HOMO SAPIENS INTERFERON REGULATORY FACTOR 1 (IRF1), MRNA. VERSION XM_034862.1 GI:14726087 CDS 197..1174 /CODON_START=1 1 CGAGCCCCGC CGAACCGAGG CCACCCGGAG CCGTGCCCAG TCCACGCCGG CCGTGCCCGG 61 CGGCCTTAAG AACCCGGCAA CCTCTGCCTT CTTCCCTCTT CCACTCGGAG TCGCGCTCCG 121 CGCGCCCTCA CTGCAGCCCC TGCGTCGCCG GGACCCTCGC GCGCGACCGC CGAATCGCTC 181 CTGCAGCAGA GCCAACATGC CCATCACTCG GATGCGCATG AGACCCTGGC TAGAGATGCA 241 GATTAATTCC AACCAAATCC CGGGGCTCAT CTGGATTAAT AAAGAGGAGA TGATCTTCCA 301 GATCCCATGG AAGCATGCTG CCAAGCATGG CTGGGACATC AACAAGGATG CCTGTTTGTT 361 CCGGAGCTGG GCCATTCACA CAGGCCGATA CAAAGCAGGG GAAAAGGAGC CAGATCCCAA 421 GACGTGGAAG GCCAACTTTC GCTGTGCCAT GAACTCCCTG CCAGATATCG AGGAGGTGAA 481 AGACCAGAGC AGGAACAAGG GCAGCTCAGC TGTGCGAGTG TACCGGATGC TTCCACCTCT 541 CACCAAGAAC CAGAGAAAAG AAAGAAAGTC GAAGTCCAGC CGAGATGCTA AGAGCAAGGC 601 CAAGAGGAAG TCATGTGGGG ATTCCAGCCC TGATACCTTC TCTGATGGAC TCAGCAGCTC 661 CACTCTGCCT GATGACCACA GCAGCTACAC AGTTCCAGGC TACATGCAGG ACTTGGAGGT 721 GGAGCAGGCC CTGACTCCAG CACTGTCGCC ATGTGCTGTC AGCAGCACTC TCCCCGACTG 781 GCACATCCCA GTGGAAGTTG TGCCGGACAG CACCAGTGAT CTGTACAACT TCCAGGTGTC 841 ACCCATGCCC TCCACCTCTG AAGCTACAAC AGATGAGGAT GAGGAAGGGA AATTACCTGA 901 GGACATCATG AAGCTCTTGG AGCAGTCGGA GTGGCAGCCA ACAAACGTGG ATGGGAAGGG 961 GTACCTACTC AATGAACCTG GAGTCCAGCC CACCTCTGTC TATGGAGACT TTAGCTGTAA 1021 GGAGGAGCCA GAAATTGACA GCCCAGGGGG GGATATTGGG CTGAGTCTAC AGCGTGTCTT 1081 CACAGATCTG AAGAACATGG ATGCCACCTG GCTGGACAGC CTGCTGACCC CAGTCCGGTT 1141 GCCCTCCATC CAGGCCATTC CCTGTGCACC GTAGCAGGGC CCCTGGGCCC CTCTTATTCC 1201 TCTAGGCAAG CAGCACCTGG CATCATGGTG GATATCGTGC ACAGAAGCTG GACTTCTCTG 1261 GGCCCCTCAA CAGCCAAGTG TGACCCCACT CCCAAGTGGG GATGGGGCCT CCCTCCTTGG 1321 GTCATTGACC TCTCAGGGCC TGGCAGGCCA GTGTCTGCGT TTTTCTTGTC GTCTAAAGCT 1381 GGCCCTGCCT CCTGGCAAGA TGAGGTTCTG AGACCAGTGT ATCAGGTCAG GCACTTGGAC 1441 AGGAGTCAGT GTCTGGCTTT TTCCTCTGAG CCCAGCTGCC TGGAGAGGGT CTCGCTGTCA 1501 CTGGGTGGCT CCTAGGGGAA CAGACCAGTG ACCCCAGAAA AGCATAACAC CAATCCCAGG 1561 GCTGGCTCTG CACTAAGAGA AAATTGCACT AAATCAATCT CGTTCCCAAA GAACTACCCC 1621 CTTTTCAGCT CAGCCCTGGG GACTGTTCCA AAGCCAGTGA AATGTGAAGG AAAGTGCGGT 1681 CCTTCGGGGC GATGCTGGCT CAGCCTCAGA GGAGCTCTAC CCTGCTCCCT GCTTTGGCTG 1741 AGGGGCTTGG GAAAAAAACT TGGCACTTTT TCGTGTGGAT CTTGCCACAT TTCTGATCAG 1801 AGGTGTACAC TAACATTTCC CCCGAGCTCT TGGCCTTTCC ATTTATTTAT ACAGTGCCTT 1861 GCTCGGCGCC CACCACCCCC TCAAGCCCCA GCAGCCCTCA ACAGGGCCAG GGAGGGAAGT 1921 GTGAGCGCCT TGGTATGACT TAAAATTGGA AATGTCATCT AACCATTAAG TCATGTGTGA 1981 ACACATAGGA CGTGTGTATA TATGTACATT TGTCTTTTTA TAAAAAGTAA ATTGTT GENBANK ID: AJ310549.1 DEFINITION HOMO SAPIENS MRNA FOR CLP-36 PROTEIN. VERSION AJ310549.1 GI:13160404 CDS 1..990 /CODON_START=1 1 ATGACCACCC ACCAGATAGA CCTCCAGGGC CCGGGGCCGT GGGGCTTCCG CCTCGTGGGC 61 GGCAAGGACT TCGAGCAGCC TCTCGCCATT TCCCGGGTCA CTCCTGGAAG CAAGGCGGCT 121 CTAGCTAATT TATGTATTGG AGATGTAATC ACAGCCATTG ATGGGGAAAA TACTAGCAAT 181 ATGACACACT TGGAAGCTCA GAACAGAATC AAAGGCTGCA CAGACAACTT GACTCTCACT 241 GTAGCCAGAT CTGAACATAA ACTGTGGTCT CCTCTGGTGA CGGAGGAAGG GAAGCGTCAT 301 CCATACAAGA TGAATTTAGC CTCTGAACCC CAGGAGGTCC TGCACATAGG AAGCGCCCAC 361 AACCGAAGTG CCATGCCCTT TACCGCCTCG CCTGCCTCCA GCACTACTGC CAGGGTCATC 421 ACAAACCAGT ACAACAACCC AGCTGGCCTC TACTCTTCTG AAAATATCTC CAACTTCAAC 481 AATGCCCTGG AGTCAAAGAC TGCTGCCAGC GGGGTGGAGG CGAACAGCAG ACCCTTAGAC 541 CATGCTCAGC CTCCAAGCAG CCTTGTCATC GACAAAGAAT CTGAAGTTTA CAAGATGCTT 601 CAGGAGAAAC AGGAGTTGAA TGAGCCCCCG AAACAGTCCA CGTCTTTCTT GGTTTTGCAG 661 GAAATCCTGG AGTCTGAAGA AAAAGGGGAT CCCAACAAGC CCTCAGGATT CAGAAGTGTT 721 AAAGCTCCTG TCACTAAAGT GGCTGCGTCG ATTGGAAATG CTCAGAAGTT GCCTATGTGT 781 GACAAATGTG GCACTGGGAT TGTTGGTGTG TTTGTGAAGC TGCGGGACCG TCACCGCCAC 841 CCTGAGTGTT ATGTGTGCAC TGACTGTGGC ACCAACCTGA AACAGAAGGG CCATTTCTTT 901 GTGGAGGATC AAATCTACTG TGAGAAGCAT GCCCGGGAGC GAGTCACACC ACCTGAGGGT 961 TATGAAGTGG TCACTGTGTT CCCCAAGTGA GCCAGCAGAT CTGACCACTG TTCTCCAGCA 1021 GGCCTCTGCT GCAGCTTTTT CTCTCAGTGT TCTGGCCCTC TCCTCTCTTG AAAGTTCTCT 1081 GCTTACTTTG GTT GENBANK ID: XM_016642.3 DEFINITION HOMO SAPIENS ADENYLATE KINASE 3 (AK3), MRNA. VERSION XM_016642.3 GI:16163712 CDS 145..816 /CODON_START=1 1 CCTTCCCCCT GTAGGGCCGG CCGGCGAGTC CCAGTGAGAG CGGAGGGTGC CAGAGGTAGG 61 GGGCCGAGAA ACAAAGTTCC CGGGGCTCCC TCCGGGGCCG CGGTCGGGGC TGCGCGTTTG 121 ACCGCCCCCC TCCTCGCGAA GGCAATGGCT TCCAAACTCC TGCGCGCGGT CATCCTCGGG 181 CCGCCCGGCT CGGGCAAGGG CACCGTGTGC CAGAGGATCG CCCAGAACTT TGGTCTCCAG 241 CATCTCTCCA GCGGCCACTT CTTGCGGGAG AACATCAAGG CCAGCACCGA AGTTGGTGAG 301 GTGGCAAAGC AGTATATAGA GAAAAGTCTT TTGGTTCCAG ACCATGTGAT CACACGCCTA 361 ATGATGTCCG AGTTGGAGAA TAGGCGTGGC CAGCACTGGC TCCTTGATGG TTTTCCTAGG 421 ACATTAGGAC AAGCCGAGGC CCTGGACAAA ATCTGTGAAG TGGATCTAGT GATCAGTTTG 481 AATATTCCAT TTGAAACACT TAAAGATCGT CTCAGCCGCC GTTGGATTCA CCCTCCTAGC 541 GGAAGGGTAT ATAACCTGGA CTTCAATCCA CCTCATGTAC ATGGTATTGA TGACGTCACT 601 GGTGAACCAT TAGTCCAGCA GGAGGAIGAT AAACCCGAAG CAGTTGCTGC CAGGCTAAGA 661 CAGTACAAAG ACGCGGCAAA GCCAGTCATT GAATTATACA AGAGCCGAGG AGTGCTCCAC 721 CAATTTTCCG GAACGGAGAC GAACAAAATC TGGCCCTACG TTTACACACT TTTCTCAAAC 781 AAGATCACAC CTATTCAGTC CAAAGAAGCA TATTGACCCT GCCCAATGGA AGAACCAGGA 841 AGATGTGGTC ATTCATTCAA TAGTGTGTGT AGTATTGGTG CTGTGTCCAA ATTAGAAGCT 901 AGCTGAGGTA GCTTGCAGCA TCTTTTCTAG TTGAAATGGT GAACTGATAG CAAAACAAAT 961 GAGTAGAAAG AGTTCATGAA GAGGCCCTCC TCTGCCTTTC AAAAGGGTGG TCACCTACAC 1021 ATGTTTAAGG TGTCTCTGCA CATGTCTCAA GCCCATCACA AGAAAGCAAG TACAGTGTGG 1081 ATTTCAAATG GTGTGTAACT TCAGCTCCAG CTGGTTTTTG ACAGCTGTTG CTGTGGTAAT 1141 ATTTTTTACA TGTGATGGTG ATAGTCTCTG GTTCTCCCCA TCCCCACAAA GGCTGTTGAA 1201 CCACACCACC AGGAAGCCTG AGAATGAATC CTGAGGGCTC TACCGCAGGC TTTGTCCCAG 1261 GCTTTCTGGT GTGTGCCCTC CTGGTAACAG TGAAATTGAA GCTACTTACT CATAGTGGTT 1321 GTTTCTCTGG TCTTGAGTGA CTGTGTCCAC AGTTCATTTT TTTCCGGTAG GAATAACTCC 1381 TTTTCTACAT CCACACTCCA TAGAGTCTCT CCTTTTCAGA TATCCTGGGA TGAAAGAATT 1441 TGGCTTTTTT TTTTTTTTTT TTTTTGACAT CTGTTTTCAC TCTTAGGCTT TTAAACAATA 1501 GTTATTGCTC TTATCCCTCT CAGATTCTAA TAACTGAGAG TGATGGGGCT ATATTGAATC 1561 TCTGTATGCA CTGAGAACTG AGCTATGAAG AGGATCTTAT TAAACTGCTG GTCTGACTTT 1621 ATGGATTGAC ACTGTTCCTT TCTTTTATTG TG GENBANK ID: Z35307.1 DEFINITION H. SAPIENS MRNA FOR ENDOTHELIN-CONVERTING-ENZYME 1. VERSION Z35307.1 GI:535181 CDS 38..2299 /CODON_START=1 1 CGCCCCCCCG GTGTCCGCCC TGCTGTCGGC GCTGGGGATG TCGACGTACA AGCGGGCCAC 61 GCTGGACGAG GAGGACCTGG TGGACTCGCT CTCCGAGGGC GACGCATACC CCAACGGCCT 121 GCAGGTGAAC TTCCACAGCC CCCGGAGTGG CCAGAGGTGC TGGGCTGCAC GGACCCAGGT 181 GGAGAAGCGG CTGGTGGTGT TGGTGGTACT TCTGGCGGCA GGACTGGTGG CCTGCTTGGC 241 AGCACTGGGC ATCCAGTACC AGACAAGATC CCCCTCTGTG TGCCTGAGCG AAGCTTGTGT 301 CTCAGTGACC AGCTCCATCT TGAGCTCCAT GGACCGCACA GTGGACCCCT GCCATGACTT 361 CTTCAGCTAC GCCTGTGGGG GCTGGATCAA GGCCAACCCA GTCCCTGATG GCCACTCACG 421 CTGGGGGACC TTCAGCAACC TCTGGGAACA CAACCAAGCA ATCATCAAGC ACCTCCTCGA 481 AAACTCCACG GCCAGCGTGA GCGAGGCAGA GAGAAAGGCG CAAGTATACT ACCGTGCGTG 541 CATGAACGAG ACCAGGATCG AGGAGCTCAG GGCCAAACCT CTAATGGAGT TGATTGAGAG 601 GCTCGGGGGC TGGAACATCA CAGGTCCCTG GGCCAAGGAC AACTTCCAGG ACACCCTGCA 661 GGTGGTCACC GCCCACTACC GCACCTCACC CTTCTTCTCT GTCTATGTCA GTGCCGATTC 721 CAAGAACTCC AACAGCAACG TGATCCAGGT GGACCAGTCT GGCCTGGGCT TGCGCTGGAG 781 AGACTATTAC CTGAACAAAA CTGAAAACGA GAAGGTGCTG ACCGGATATC TGAACTACAT 841 GGTCCAGCTG GGGAAGCTGC TGGGCGGCGG GGACGAGGAG GCCATCCGGC GCCAGATGCA 901 GCAGATCTTG GACTTTGAGA CGGCACTGGC CAACATCACC ATCCCACAGG AGAAGCGCCG 961 TGATGAGGAG CTCATCTACC ACAAAGTGAC GGCAGCCGAG CTGCAGACCT TGGCACCCGC 1021 CATCAACTGG TTGCCTTTTC TCAACACCAT CTTCTACCCC GTGGAGATCA ATGAATCCGA 1081 GCCTATTGTG GTCTATGACA AGGAATACCT TGAGCAGATC TCCACTCTCA TCAACACCAC 1141 CGACAGATGC CTGCTCAACA ACTACATGAT CTGGAACCTG GTGCGGAAAA CAAGCTCCTT 1201 CCTTGACCAG CGCTTTCAGG ACGCCGATGA GAAGTTCATG GAAGTCATGT ACGGGACCAA 1261 GAAGACCTGT CTTCCTCGCT GGAAGTTTTG CGTGAGTGAC ACAGAAAACA ACCTGGGCTT 1321 TGCGTTGGGC CCCATGTTTG TCAAAGCAAC CTTCGCCGAG GACAGCAAGA GCATAGCCAC 1381 CGAGATCATC CTGGAGATTA AGAAGGCATT TGAGGAAAGC CTGAGCACCC TGAAGTGGAT 1441 GGATGAGGAA ACCCGAAAAT CAGCCAAGGA AAAGGCCGAT GCCATCTACA ACATGATAGG 1501 ATACCCCAAC TTCATCATGG ATCCCAAGGA GCTGGACAAA GTGTTTAATG ACTACACTGC 1561 AGTTCCAGAC CTCTACTTTG AAAATGCCAT GCGGTTTTTC AACTTCTCAT GGAGGGTCAC 1621 TGCCGATCAG CTCAGGAAAG CCCCCAACAG AGATCAGTGG AGCATGACCC CGCCCATGGT 1681 GAACGCCTAC TACTCGCCCA CCAAGAATGA GATTGTGTTT CCGGCCGGGA TCCTGCAGGC 1741 ACCATTCTAC ACACGCTCCT CACCCAAGGC CTTAAACTTT GGTGGCATAG GTGTCGTCGT 1801 GGGCCATGAG CTGACTCATG CTTTTGATGA TCAAGGACGG GAGTATGACA AGGACGGGAA 1861 CCTCCGGCCA TGGTGGAAGA ACTCATCCGT GGAGGCCTTC AAGCGTCAGA CCGAGTGCAT 1921 GGTAGAGCAG TACAGCAACT ACAGCGTGAA CGGGGAGCCG GTGAACGGGC GGCACACCCT 1981 GGGGGAGAAC ATCGCCGACA ACGGGGGTCT CAAGGCGGCC TATCGGGCTT ACCAGAACTG 2041 GGTGAAGAAG AACGGGGCTG AGCACTCGCT CCCCACCCTG GGCCTCACCA ATAACCAGCT 2101 CTTCTTCCTG GGCTTTGCAC AGGTCTGGTG CTCCGTCCGC ACACCTGAGA GCTCCCACGA 2161 AGGCCTCATC ACCGATCCCC ACAGCCCCTC TCGCTTCCGG GTCATCGGCT CCCTCTCCAA 2221 TTCCAAGGAG TTCTCAGAAC ACTTCCGCTG CCCACCTGGC TCACCCATGA ACCCGCCTCA 2281 CAAGTGCGAA GTCTGGTAAG GACGAAGCGG AGAGAGCCAA GACGGAGGAG GGGAAGGGGC 2341 TGAGGACGAG ACCCCCATCC AGCCTCCAGG GCATTGCTCA GCCCGCTTGG CCACCCGGGG 2401 CCCTGCTTCC TCACACTGGC GGGTTTTCAG CCGGAACCGA GCCCATGGTG TTGGCTCTCA 2461 ACGTGACCCG CAGTCTGATC CCCTGTGAAG AGCCGGACAT CCCAGGCACA CGTGTGCGCC 2521 ACCTTCAGCA GGCATTCGGG TGCTGGGCTG GTGGCTCATC AGGCCTGGGC CCCACACTGA 2581 CAAGCGCCAG ATACGCCACA AATACCACTG TGTCAAATGC TTTCAAGATA TATTTTTGGG 2641 GAAACTATTT TTTAAACACT GTGGAATACA CTGGAAATCT TCAGGGAAAA ACACATTTAA 2701 ACACTTTTTT TTTTAAGCCC GENBANK ID: J02683 DEFINITION HUMAN ADPATP CARRIER PROTEIN MRNA, COMPLETE CDS. VERSION J02683.1 GI:179246 CDS 70..966 /CODON_START=1 1 CCGCAGCGCC GTAGTCAAAC CGAACCCGGC CCAGTCCCGT CCTGCAGCAG TCTGCCTCCT 61 TCTTTCAACA TGACAGATGC CGCATTGTCC TTCGCCAAGG ACTTCCTGGC AGGTGGAGTG 121 GCCGCAGCCA TCTCCAAGAC GGCGGTAGCG CCCATCGAGC CGGTCAAGCT GCTGCTGCAG 181 GTGCAGCATG CCAGCAAGCA GATCACTGCA GATAAGCAAT ACAAAGGCAT TATAGACTGC 241 GTGGTCCGTA TTCCCAAGGA GCACCAAGTT CTGTCCTTCT GGCGCGGTAA CCTGGCCAAT 301 GTCATCAGAT ACTTCCCCAC CCACGCTCTT AACTTCGCCT TCAAAGATAA ATACAAGCAG 361 ATCTTCCTCG GTGGTGTGGA CAAGAGAACC CAGTTTTGGC GCTACTTTGC AGGGAATCTG 421 GCATCGGGTG CTGCCGCAGG GGCCACATGC CTGTGTTTTC TGTACCCTCT TGATTTTGCC 481 CGTACCCGTC TAGCAGCTGA TGTGGGTAAA GCTGGAGCTG AAAGGGAATT CCGAGGCCTC 541 GGTGACTGCC TGGTTAAGAT CTACAAATCT GATGGGATTA AGGGCCTGTA CCAAGGCTTT 601 AACGTGTCTG TGCAGGGTAT TATCATCTAC CGAGCCGCCT ACTTCGGTAT CTATGACACT 661 GCAAAGGGAA TGCTTCCGGA TCCCAAGAAC ACTCACATCG TCATCAGCTG GATGATCGCA 721 CAGACTGTCA CTGCTGTTGC CGGGTTGACT TCCTATCCAT TTGACACCGT TCGCCGCCGC 781 ATGATGATGC AGTCAGGGCG CAAAGGAACT GACATCATGT ACACAGGCAC GCTTGACTGC 841 TGGCGGAAGA TTGCTCGTGA TGAAGGAGGC AAAGCTTTTT TCAAGGGTGC ATGGTCCAAT 901 GTTCTCAGAG GCATGGGTGG TGCTTTTGTG CTTGTCTTGT ATGATGAAAT CAAGAAGTAC 961 ACATAAGTTA TTTCCTAGGA TTTTTCCCCC TGTGAACAGG CATGTTGTAT TCTATAACAC 1021 AATCTTGAGC ATTGTTGACA GACTCCTGGC TGTCAGTTTC TCAGTGGCAA CTACTTTACT 1081 GGTTGAAAAT GGGAAGCAAT AATATTCATC TGACCAGTTT TCTCTTAAAG CCATTTCCAT 1141 GCATGATGAT GATGGGACTC AATTGTATTT TTTATTTCAG TCACTCCTGA CTAAATAACA 1201 ATTTGGAGAA ATAAAAATAG TCTAAAAT GENBANK ID: M22760.1 DEFINITION HOMO SAPIENS NUCLEAR-ENCODED MITOCHONDRIAL CYTOCHROME C OXI- DASE VA SUBUNIT MRNA, COMPLETE CDS. VERSION M22760.1 GI:695359 20..472 /CODON_START=1 1 GGGCGCCGCC ATCGCCGTCA TGCTGGGCGC CGCTCTCCGC CGCTGCGCTG TGGCCGCAAC 61 CACCCGGGCC GACCCTCGAG GCCTCCTGCA CTCCGCCCGG ACCCCCGGCC CCGCCGTGGC 121 TATCCAGTCA GTTCGCTGCT ATTCCCATGG GTCACAGGAG ACAGATGAGG AGTTTGATGC 181 TCGCTGGGTA ACATACTTCA ACAAGCCAGA TATAGATGCC TGGGAATTGC GTAAAGGGAT 241 AAACACACTT GTTACCTATG ATATGGTTCC AGAGCCCAAA ATCATTGATG CTGCTTTGCG 301 GGCATGCAGA CGGTTAAATG ATTTTGCTAG TCTAGTTCGA ATCCTAGAGG TTGTTAAGGA 361 CAAAGCAGGA CCTCATAAGG AAATCTACCC CTATGTCATC CAGGAACTTA GACCAACTTT 421 AAATGAACTG GGAATCTCCA CTCCGGAGGA ACTGGGCCTT GACAAAGTGT AAACCGCATG 481 GATGGGCTTC CCCAAGGATT TATTGACATT GCTACTTGAG TGTGAACAGT TACCTGGAAA 541 TACTGATGAT AACATATTAC CTTATTTTGA ACAAGTTTCC CTTTATTGAG TACCAAGCCA 601 TGTAATGGTA ACTTGGACTT TAATAAAAGG GAAATGAGTT TGAACTG GENBANK ID: 5118079 DNA LINEAR DEFINITION HUMAN, INTESTINAL FATTY ACID BINDING PROTEIN GENE, COMPLETE CDS, AND AN ALU REPETITIVE ELEMENT. VERSION M18079.1 GI:182351 1 GTAATATCTT GGGCAAGCCC TAGAGCTTCT TTCCTGACCC TTAGTTAATA AGATGTTATC 61 TGGTCACATT CAGTCACAAT AATAGACTCA TTTTAGTAAT AAACATCTTA AGACTAGTAA 121 TTAAAACTCT TTACTTCACA CCAAGTTTCC TCCCCAAGCT TGGCCTGTTC CTGGCTGGCA 181 GCCTGAAGTA GGGAAAGGAG AGATATGGTG ACCTTTTCTT TGTACCTTTC TAGCTACCCT 241 CTATACCCTG ACCCCACATA CATAATTGAG CTGTGGCTTC TGACTCTACT GGGTTTGGGG 301 ATGAGAGGCA GTGAGAGTAA AATGAAGGAG TGGTTTTAAT TAATGGCACA GCTAAAACTG 361 GATTTTGTTC TCTCTGCACA TGGCAGATGT TTAAAGCTCA TTCTTTCTTT TATGCAAGTT 421 TTTACACCAT CCAGCCTCAT TTGTACCTCT TGAATTTTTG CTCAGTGGCC TATCACCATT 481 CAGGATCAAG ACAAAAATCA ATGAGCACTT ATTGTGTGTC ATGCACCCTA CAAAGTGCCA 541 GGATATTTAT CCAAACTCCT GGCAATGCTA AACACAATGC AAAAAGACAT ATTAGAAAAC 601 GAATCTTATT AACTTTAGCT TTTCAACTGT ATTTCATCAT AAAGTCTTAC TTTACAAGAT 661 AATTGCTGTT GTGAAAAAGG GAAAGGTCAT GGTCTCATTT CCCAGATGTT ATTTGATATA 721 TGCTATAAAT TATATTACCT CCAACATAGT CTGCACTTTG AACTTAGAAA AACAATCTTC 781 AGACGGCATG CATTCTAATT CTTGAAATAA GTATGCCCAC AAACTGTAGT TTAAGACAGA 841 ATAGGTATGC TTCTCATGTT TTAATTCAGT TGAATTTCAG AAGATCTCAG GAATGTACAG 901 AACGAGAATT AAGAATTAAT AAGAATAAGA ATTAATTAAT TGCTTGACAT AGAGTAGTTA 961 GGTGATTTCC TGAACTTTAA GCTTCCACAT CACACTATGA AGTTGGTTCA AGATAAGAAA 1021 TATAATAAAT TCTCGCCCAA GGACAGACCT GAATCTCTAG CTGCCTAGAG GCTGACTCAA 1081 CTGAAATCAT GGCGTTTGAC AGCACTTCCA AGGTAGACCG GAGTGAAAAC TATGACAAGT 1141 TCATGGAAAA AATGGGTAAA GACTTTATTT CTTTGTGCCT CATTCTTTGC TTTCTTACAA 1201 ACATTTTTCT TTCTAACTCC TAAATCTCTA GGAGATTACA GATAGCTTAC AGATAGCTCC 1261 TGATGTGGTA GAGACGGATC CAGAAGATGT TCAGAGGAGG GAAACCATAT TTTCCCTTCT 1321 TACATTAGGA AGAATCCACT ATCTCACTAA TGCAAGAAAA GATTCTTTGA GTGCTGTTCT 1381 CTGAAACACA CCAAAAAGAT CCAGAAATGT TTCCTTCACT CTTTAACTGA AAAATGACTT 1441 TTTTTCTTGT TTACAGTAAG AAAATGGCAG CGTGTAATGA TAACTTCCAG ATCTGAAAAT 1501 GTTAAATTCT ACGAGATGGA AAAACAAAGA CCATATAACA AAGTAATGGA AAAAGTTCTC 1561 TTAAAATTTA TAGCTCTGAA TAAGTTAGAT TTAATTCTGA TTTCTTCTAA CTTAAAAAAG 1621 TTTTGGAATA ATCTTGAGAA GCTGTGTAGT TTTCTCCAGG GCGTTTAATT TAACTGATTT 1681 ATAATTTGAT ACCAATACTC TGGCAGCCCA TATACTATAC AAGATAGGCA AACAAATTTG 1741 TGTCATTCCC CTAAAAGAAA AATCTGCATC AATTATAGCT TACAGTTTAG GAACTCTAAG 1801 TTTAAATTTA TAAAAGTTGT AGATTCTTAT AGTGATTTTG GCTTAATATT TGCTAATTTT 1861 CTCATTTTTG TGTCAGAAAG AAATGCCACA AGAAGCAAAT AGAACTATAA AGTTCAAAAT 1921 GTTAAAGCCA CTAAGAAAAA CAAAGGGGCA TTTAAGAAAA AAGAATACTG TATATGTGGA 1981 ATTAAAGATG TGCTTCCTTA TAAATATATG AATATACATT TTAATCCTTC ATTTAATATT 2041 TCTAGAATTT GATTTACTTA ACACTGAAAT GAACAGTTTG TTAATCTTAT TAAGGTTGCT 2101 CAGCTCTAAG ATTCTATAAT TCTGTACTCT ACTTAATTTT TCTCAAGTTA TGGAAAAACA 2161 ACTTTAATCA GTTCTCTTGA TCGGATTGAA CCTGAACTTC TATAGAAGCA ATCTGAATGT 2221 TCTTGTGCAA AGGCAATGCT ACCGAGTTTT CTTCCCACCC TCAAAATAAA CAAACAAAAC 2281 ATAACTTGGA AAAATAAACA CTTCCTATGG GATTTGACTT TATTTTCTCC ATTGTCTTAC 2341 CTTTTACAGG TGTTAATATA GTGAAAAGGA AGCTTGCAGC TCATGACAAT TTGAAGCTGA 2401 CAATTACACA AGAAGGAAAT AAATTCACAG TCAAAGAATC AAGCGCTTTT CGAAACATTG 2461 AAGTTGTTTT TGAACTTGGT GTCACCTTTA ATTACAACCT AGCAGACGGA ACTGAACTCA 2521 GGGTAAGAAT TTTTTTTTTT ATGAGCAATG CATTCTTGAT TTTTCTACCC AATATTAAAA 2581 TGATTTCTGC TCTATTTCAT TGGATGGTTT AATTAATGCA GGTCTCCTTC ACTAACTGAA 2641 GAAGCCAATG AAGTTTGTCT ACATTATATA TTACACAAAT TGGCAGGGTA TTTAAATATG 2701 CTTTTATTTT TATACGCATC TGTGAAGAAT CTGAATTGAA CAGTAAGAAT TAGAAAACTA 2761 TCTTTTGAAT GACTGAATAT AGACCTATTC ATAAAGAAAT TTAAAACTGT GTTTTTAAAC 2821 AGTACAGCAA AACAAGCCTT TAGAGTTAAT ATGTAACTTA ACTGTAACAT GTTGAAATAA 2881 TAAAAGAAAT GAATAGATGA ACAAATGACT GAGTTACCAA ATGGAAAGAT TTGATGTATT 2941 GTAGGTCATT GGCAGTGTAC CTTTTCATGT TTAAGATAAC ACATTTTAGG AAGTCATCAT 3001 TTTCAACAAA TTTTTTAAAA ACTTTTTTTA GCCTCAACAT TTTTCTATTT AAATTACATG 3061 TTTGTAATGA CAATTTAACT ACTGAATGTT TTATCGTAAG TTATCTCTTT CCTTAATTAG 3121 TACCACAATC ACACAAATTA AAACAAGCAC AGGTTATTAA CATCTCCGTG AAACTAATTT 3181 TAACCATGAC TATATTTCTG GACACGTAAC ATGAAAGATT CAGAAAGAAG TGCTGCTCAT 3241 CTGCCTTAAA ATTCAGCGTA TGCAAATTAT TGAAGAGAAC AAGCATAATG GTTATCAACA 3301 CATACTCTGT AGCCCAATGG CCTAGGTTCA ATCCTCACTC TGTGACTTTA GGTGAATCAC 3361 TGTGCCATTT TACAGTCTCC TCTTCTGCAA ACTAGAGATA GTAGTATCAG TTTCATAGGG 3421 TCACCATGAA GATTAAATGA AAAAGTGTGT CTACAGAACT CAGAACAGTG CCTGACATGT 3481 GTAAGACCCT AATAAATGCC ATTATTATTA TTATTATTAT TATTATTATT ATTATTATTA 3541 TGTAGGGGAC CTGGAGCCTT GAGGGAAATA AACTTATTGG AAAATTCAAA GGGACAGACA 3601 ATGGAAACGA ACTGAATACT GTCCGAGAAA TTATAGGTGA TGAACTAGTC CAGGTGAGTT 3661 GTCAAATTTA TAGCTATTTT CAAAAGGCAA AAATTACTAC AAAACAATAA TTTTTGTCAC 3721 TGCTGAGCCA GATCTTCAGT AAACTGACTA CTTCTTTTCT CATAAATCTT ACTGATTTTA 3781 AAAATATTGT ATAGCTATTT TCTGATGCCT ATTTACTAAA GACAACTTAT ATATGTCAAA 3841 TAATCAATGC CTATTTTAAC TGAAAATATA AATGACTACA AACCAACATG TGTTTTAAAA 3901 TGGCTGTATC CCATATCTGT ATAAATCTTG CTATCAAGTA CAAGAAAAAA TTGTATAAAC 3961 TCATACTCAT ATAATATATA TGAATATATA ATATAAAAAT AGTATAAACT CATATACTAT 4021 AAAACTATAA TACTACTTTT TCTTAACTTA GATGTAAACC TTAAAGATAA ATTCTTCTGT 4081 TTGTTAACAC CTTTCAGACT TATGTGTATG AAGGAGTAGA AGCCAAAAGG ATCTTTAAAA 4141 AGGATTGAGC ATTATTCTTG GCGCACAGTC CAAAATACAA ATTGGACAGA AGATCTATAT 4201 TGTACCAGAA CTGTTTATTT CACCCCATCA AGTATAAGGT TACTGATTGA TTGGTCCTTT 4261 TATAAACATT GGTATATTTC CATTCATGCC AAAGCAAAAG AAGTAAAAGC TAATTAGGAT 4321 TTAATTTGTT TTATATTCTC TAAGATATAT ATTTACTAAA AGAATTTGTG ACATTTTAAA 4381 AAACAAAAAT AAATATTGCA TCCATGTTGC TTTATATGTA GCCTTGCCTT TTAAAAGAAA 4441 AAGTATGTGA ATATGAATTG ACAGATTGTT TTCGTAGAGA GAGGGTCTTA CTCTTTCACT 4501 CAGGCTGGAA TGCAGTGGAG AGATCATAGC TCACTGTAAC CTCAAACTCC TGGACTCATG 4561 CAATCTTCCT GCCTCAGGCT TCTGAGTAGC TAGGACTATG GGTACATTCC ACAGTGCCCA 4621 GCTAATTTTT GTTTTGTTTT CTTTTTATTT TTTTTAGAGA TGGGGTCTTG CTATATTGCC 4681 CAGGCTGGTC TTGAACCCCT GGCCTCAAGC AATCCTCCTG CCTCAGCCTC TCAAGTTGTT 4741 TTTTTCTTTA CATTTGATAA ACTAAAAGCA TAGGCTGCAT ATGAGTCTTT AACATCTTGA 4801 ACTGGTTGTG AATAATTTTC TGGCACTGGT TGTAAGTAAT ATCTATTATT ATAAAAATAA 4861 TATATGCTCA ACCAGAAAAC TTAGAAATAA GAAACACAAA TGTAAAATAA GTATTTCCAT 4921 AACTCATAAT CCAGAGATAA TTGCCATTCT GATTTTGATA GATATCCTCT CAGCTCTCTT 4981 CCCTGGGGGC AGATATTTCC CAATACATAC CACTTTGAAT AGGATGATAG GAAATAAATG 5041 ATGTACTACA TTAAATTAAA TTATTGTATT ACATTTTTGT ACACATCAGT CATTCCCAGG 5101 CTTGGCTGAA AATCAGGATC ATCTGAGAAA CTTAAACAAT TTCTGCATTC TTAATCTCCA 5161 CTGTTATTCT ATTATATCAG AATCGCTAAT AGAACCAAGA ATTC GENBANK ID: X16277 DNA LINEAR DEFINITION HUMAN GENE FOR ORNITHINE DECARBOXYLASE ODC (EC 4.1.1.17). VERSION X16277.1 GI:35137 MRNA JOIN(795..1001,3858..3967,4073..4191,4475..4648, 4855..5027,5286..5420,5551..5632,5809..5892,6948..7110, 7193..7305,7399..7613,8254..8740) 1 GGATCCGGGT CCCCTCACGC TCCTGGCTGA GTCCCTGGCT TCACAGGGGA AACTACCTCC 61 GCAGGCCAGG ACCCATCTAG TTACACGATA CCTCGATGTT ACAAAGACGA GGCTTCCAGC 121 GCGGGGGCGT GGAGGCGGCT GCCAGCCCTG CCCGCAGCGT GCTGGCGACC CCCGGGACGC 181 CCCTTCCCTC CCGCGCCTCT GCTCCCTAGC TGGTGGGAGC AGAGCGCACC GGGATCACTT 241 CCAGGTCCCT TGCACCGGAG GAATGGGCGG CAGCAGGGTC CGGAGTCGGC CCGGCGGGGC 301 CCACGTGGCC AGCACATCGG TCCTCCGCTC GCGATTTCCC TTTTCCGCTC TCGGGCACGA 361 GGTACTGAAC GCCAGGTGGA AGCACAGCTG TGCAGGTACA GGCTCTGCCG TTCAGCTGCC 421 GCGGGCCGGG GCCGGGGCCT GCGGCGTCGT GCGCGTGCGC GGACCAGTTC CAGGCGGGCG 481 AGACCGCCGC AGGGCGGGGC GGGGCGAGGC GGCCGCAGGG CGGGGAGGGC GGGGAGAGGC 541 GGCCGCAGGG CGGGGAGGGC GGGGCGCGAA GCCGGGGGCG GGGGCCACGC GTGGGGCAGG 601 CGGTGCTCGG CTCGGCTGAC GTCGGCCCGC CGGCGCCCCA CCAGCTCCGC GCGGGCCCGG 661 GTTGGCCACC GCCGGGCCCC CGCCCCTCCC CCGGCCGTGT CCCGGCCGGA ACCGATCGTG 721 GCTGGTTTGA GCTGGTGCGT CTCCATGGCG ACCCGCCGGT GCTATAAGTA GGGACCGGGG 781 TGCCGTGGGG CTTTGTCAGT CCCTCCTGTA GCCGCCGCCG CCGCCGCCCG CCGCCCCTCT 841 GGCACCAGGT CGGGCGCCAC CTCGGGCCGG CGTCTCCGGC GGGCGGGAGC CAGGCGCTGA 901 CGGGCGCGGC GGGGGCGGCC GAGCGCTCCT GCGGCTGCGA CTCAGGCTCC GGCGTCTGCG 961 CTTCCCCATG GGGCTGGCCT GCGGCGCCTG GGCGCTCTGA GGTGAGGGAC TCCCCGGCCG 1021 CGGAGGAAGG GAGGGAGCGA GGGCGGGAGC CGGGGCGGGC TGCGGGCCCC GGGCCCCGGG 1081 CACGTGTGCG GCGCGCCTCG CCGGCCTGCA GAGACACGTG GTCGCCGAGC GGGCCACGAC 1141 CTTGAGGCGC CGCTTCCTCC CGGCCCGGGG TTCTCCCGCG GCTGGATAAG GGTGATCCGG 1201 GCGCCTCGTT CTGCCCCCGT CTTCACAGCT CGGGGCTGGA GGGGCCTAGG GGAGACCCAC 1261 CCGGAGACCC TGCGGCCCCG CGCCGGCCTC TTTCCCAACC CTTCGGCGGC CGCGCGCTGG 1321 CCGGGGAGCC GTTGGGGAGG CCCTGGCGGC CGCGCAGCAG GTGCAGGGGC GCAGAGCCTG 1381 GGCTCGCCTT GGTACAGACG AGCGGCCCCG GCCTTGGCGC CTTCAGTTTC CTTCCAGTTT 1441 TTATTTTCGC TGTGTCTACA GAGCAGATGA CACCAATTTG GAAACCCGCG AGAGTGGGTA 1501 GAGCTAAGAT AGTCTTGCTG TAGTAGCTGT GATATTAGAT GCTCGGCCAT GACTTAGAGG 1561 TGTTTATTTA AGGACTGTGA ATGACTCGGT GATTTCGGAA AAGCTTGGCT TAGATGAACG 1621 GACATACACA GGGGAGACAG CCCTAAGGTT TGCAGAAAAG GCTGATTGTG CTGTTTGCGA 1681 AGTCGAAATA ATTGGTGAAA GTGTAGAAGG CAGAACCTCT CAGGAATGTC TGOGGAGGAC 1741 AAAGAATGTG TTGGCTGACT TTGTTTAAAC ATAAAATTGG GCAGACTTTA ATTGATTTGT 1801 GAAATTTTTT TCAAAGTTTG TTTGAATTAG CCCCTATCTC TTCTAACATT ATCCTCTTGT 1861 GCTAATTGAT TGACCATTTT AAATAACTTA GGTGTTACAG AAAGACCGAA AGGTGTTCTT 1921 CAGTAAAATA TATTCAAGTA AGTTACTTAA GTAACGCCTT AAAAGATACA GAAAAGCAAA 1981 AAAGTATTGG CGTATTAAAA AGAAATCAAA ACTTTCCAAG TTTAGGCCTG AACATTGCCT 2041 TAAAAATATT TAATAAGGCC TCAAATGACC CAGTCCGAGA CTGCATGAGC CTATTTATTA 2101 TTAAATTGTA AATATTCTTC ATATAAACAA AAATATATAA CCATGTCTGT AACAAAAATG 2161 GTTTTGCTAG CGTTGTTACT CTCTTCCCTT CTCCGAGGGG TGATTTAGGC AACTTCGGAG 2221 GTTGACAATG CCAAGCAGTC ACAATAGATA GAGCTTTAAA GCAAATTCTA TGCATGGGTT 2281 TGGATTTATG ACAGGCCCGT CACCCTGGGC CTGTCATAGT ACCCCATGCC AGAGCAAACT 2341 GTGTCCCCGA ACCATTGCCT GGCCTCTGTG CCCGTAGGCT GCTGGCACTG AAGTGGGTTG 2401 CACAGTGGAA AAGAAGAAAG CTCTACCTGG CAGAAATTTT TAAAGGTTAA AATAAATAAT 2461 TTTAAGAAAG CTGGTTCACA AGGTGCCACA TTTGATGAAA GCAAAATACA GTGGCTTTTA 2521 TTGTTACTAG AGTGATGTTC TTGCTTGTTT TTCTTTTTTG GTGAAGTTAG CCCCAAATTA 2581 TTCTCATAGC TAAGCAAATA CGAGAGTGAC TGTAAGGACA GTTGGCATTC CCGGAATTGC 2641 TAAACTTGGT AGGCAACGCT GGTTTAAGAA TACTGAGTTC TAGCCGGGCG TGGTGGCTCA 2701 CGCCTGTAAT CCCAACACTT TGGGAGGCTG AGGCAGGCGG ATCACCTGAG GTCGGGAGTT 2761 GGAGACCAGC CTGACTAACA TGGAGAAACG CCATCTCCAC TAAAAATATA AAATTAGCCA 2821 GGCCCCGGGT GTGGTGGCAC ATGCCGGTAA TCCCAGCTAC TCGGGAGACT GAGGCAGGAG 2881 AATCGCTTGA ACCCAGGAGG CGGAGGTTGA GGTGAGCCGA GATCATGCCA TTGCACTCCA 2941 GCCTGGGCAA CAAGAGTAAA ACTCTGTCTC AAAAAAAAAA AAAAAAAAAT ACTGAATTCT 3001 GATCAGGTAA CAGCAACTGT AATACAATGT GATAAGTTGA CTTGAAGATT ACAGTTTTTA 3061 AGAAGTATAT ACCCAGCTAA TACATGAAAA TTAACTCCTA AAATCTCAAA TGCTCCAGAC 3121 ATTTCCATGA TGCCTGTTGG TCAGTAAAAA TCATTCTAAG ACTTAGTGGA AGTAGGAAAT 3181 GTTTGTATGG CTGTGTATAA AGGCTATAAT GTAATCCCAG CACTTTGGAA GACCGAGGCG 3241 GGACGATCAC CTGGGGTCAG GAGTTTGACA CCCACCTGGA CAACGTGGTG AAATCCTGTC 3301 TCTACTAAAA ACACAAAAAT TAGCCGGGCA TGGTGCCAGG CGCCTGTAAT CCCAGCTGCT 3361 GGGGAGGCTG AGGCAGGAGA ATCGCTTGAA CCCGGGAGGC AGAGGTTGCA CTGAGCCAAG 3421 ATTGCACCGC TCCACTCCAG CCTGGGTGAC AACCTGAGAC TCTGTCTCAA AAAAAATAAA 3481 AAAGTCTATA ATGCTATTTT AAGTTTCTAA GGAACTGAAA CTGCTCTGAA ATAAATCAGA 3541 CCATTATAAG ACTTTTTTCC ATATCAGTGA GCTAAGTGCA GATAAGCTTC TGAAACTTCC 3601 ATGCTAGATT TTTTTGGTAC AAATATTTGA AATGCTTAGT GTCCTGCCTT GGAAAAACCT 3661 GGTATTTTTT GTTGTCTCCT TATACTGCCA AGGTTTATGC AATCATGTAC CTTATGCCAA 3721 GTAATAATTA GGATGACCAG GCCAGTGAGT GGTTCATATC CCGGGCATGA TTAGCTCTGC 3781 GTGTGCTCAG CCAGTGCCCC ATCTTCAACT CGATGTGTTC CTAACGTAGA CACCAAATTC 3841 CCTATTTTAT TTCTCAGATT GTCACTGCTG TTCCAAGGCC ACACGCAGAG GGATTTGCAA 3901 TTCCTGGAGA GTTGCCTTTG TGAGAAGCTG CAAATATTTC TTTCAAITCC ATCTCTTAGT 3961 TTTCCATGTA AGTATTCAGT TTACATTTAT GTTGCAGGTT AATCTTAAGA ATTGTATTGC 4021 TAAGGCTTCT AAGTGAATTT CTCCACTCTA TTTGCATTTT GTTGCATTTC AGAGGAACAT 4081 CAAGAAATCA TGAACAACTT TGGTAATGAA GAGTTTGACT GCCACTTCCT CGATCAAGGT 4141 TTTACTGCCA AGCACATTCT GGACCAGAAA ATTAATGAAG TTTCTTCTTC TGTAAGTATA 4201 TGAGGCCCAT CCTGGCAGTG CAGCTGAGAG TCCCAGGCAA GTGGAAAACT TTGGCAAGGT 4261 CTAAGGAAGA GCAATGAGGC TTACATGTCT TGTTATGGAA TGTAGAAATT AATTCACTGG 4321 TGGTAAATTA ATAGTGATAA TGCTGATACT CATATCAGTC GCTAGACTCA AAAGAGCAGG 4381 ATTCATTGTG ACTGATGGGA ATGAAGGTCG CTGGCTATTG GTGTGGTGTG TGGTGAGGCT 4441 GCTAGTGAGT CACCTGTGAC CACTCTTGTT TCAGGATGAT AAGGATGCCT TCTATGTGGC 4501 AGACCTGGGA GACATTCTAA AGAAACATCT GAGGTCGTTA AAAGCTCTCC CTCGTGTCAC 4561 CCCCTTTTAT GCACTCAAAT GTAATGATAG CAAAGCCATC CTGAAGACCC TTGCTGCTAC 4621 CGGGACAGGA TTTGACTGTG CTAGCAAGGT AAGCGATAGC AGCAGGCCTC AAAAGCGTTG 4681 TATAAAATGC GCCTGGTATT CCCCACGAGG CACATACAAG TTGTGTTTTT TGGGCAATAA 4741 ATGCTCACTA AAGGCAAATG GGCCGGGGGG GTACATGACA ACTTCCCATG CTTTTCTGTT 4801 TATTCCACGT GTTAAGCCAC ATATGGATAG CATGACACCA CTCTTCTTTT TCAGACTGAA 4861 ATACAGTTGG TGCAGAGTCT GGCGGTGCCT CCAGAGAGGA TTATCTATGC AAATCCTTGT 4921 AAACAAGTAT CTCAAATTAA GTATCCTGCT AATAATGGAG TCCAGATGAT GACTTTTCAT 4981 AGTCAAGTTG AGTTGATGAA AGTTGCCAGA GCACATCCCA AAGCAAAGTG AGTTATTCCC 5041 CCATCTGAGG GCAAGATCGG GAGCATAAGA TATCTGGATT CTTATCAAAC AAACTTAAAT 5101 TTCTGATTAT TATATTTCTA TACTTTAGTA GAAAGTAGTT GAAACCCCCA TTGAGTCATG 5161 AAGCCTGGGA CTCAAACTAC AGAATATATC AGCGACAGTA TTTAGAACAG GATTGTTTTT 5221 ATTTTAATTG TGGCTATAAG TGAACATCTA TCATGAGACA TTTGCTGCAC TTTCCTTGCT 5281 TGTAGGTTGG TTTTGCGGAT TGCCACTGAT GATTCCAAAG CAGTCTGTCG TCTCAGTGTG 5341 AAATTCGGTG CCACCCTCAG AACCAGCAGG CTCCTTTTGG AACGGGCGAA AGAGCTAAAT 5401 ATCGATGTTG TTGGTGTCAG GTGAGATTTT GGTGGGATAG CTAGAGGTCA AGACATTGAA 5461 CAGTTTGAGT TTTACAGGCT TTCTCCTAGT GTTTGCTATT A TTTAAGAA ATACTAAGAC 5521 ACAGTGTCTC GTCTCTTTAT TTTACCCCAC CTTCCATCTA GGAACCGGCT GTACCGATCC 5581 TGAGACCTTC CTGCAGGCAA TCTCTGATGC CCGCTGTGTT TTTGACATGC GGGTGAGTAT 5641 ACGTGACCCT GTTAGGCAAG GGCGGGACAC AACTGACAAT AACTAGTCTT AATTCTAGAG 5701 TTAACTTTTT A2GGCAGTTG GTTCTCTATT ACATGGGTTT CAGCCTATCT GCTGCATACA 5761 TTTTTGTTAT TACCTGTGGA TCTGGCTGAC TTATTTTCTT CATTCTAGGC TCAGGTTGGT 5821 TTCAGCATGT ATCTCCTTGA TATTGGCGGT GGCTTTCCTG CATCTGAGGA TGTGAAACTT 5881 AAATTTCAAG AGGTAATTTA GAACAAAACT GTAATACTCA GTAGCCGTTC TAATAAATTC 5941 CTTTTTGGAA TATTTCAAAA TTTAAGTGTC TTAACTAATA CCACAATGGG CTGAAGTGTC 6001 TTGGTGTGAT ATTTTGAGTG ATTTCTTTGT GCTGTCTGAC ATTACACTTG ATACCATTTG 6061 GTTTTCTAAA GTGTGAATCA GCTTTCCCAG AAGTCTTGGA TAAATGGTTA CATTGGAAAT 6121 CATGGCTCAC ACCTGTAATC CACCACTTGG GCAGGCCAAG GTGCTAGGAT CACTTGAGCC 6181 CAGGAGTTTG AGACCAGCCT GGGCAACACA GTGAGACCCG ATCTCTACAA AAAAAATTTT 6241 AAAATTAGCC TGGTGTGGTG GCCGGCACCT GTAATCCCAG CTACTTGGAA GGCTGAGGTG 6301 CGAGGATCAC TTGAGCCCAG GAGGTTGAGG CTGCAGTGAG CCATGATCAT GCCACTGCAC 6361 TCAGCCTGGG CTACAGAGTG AGACCCTGTC TCAAAAAAAA AAAAGAAAAA GCATGTTGCT 6421 GTGGGCTTCC TAGAGAATAT GCTGACTGTA GCACATCATC ACCCCAAATG TGCTTTCCTA 6481 GACCTATGCT TCCTCTCCTT AAAATACTTG AAATCTTTAG TCACTTACCA AGTTAACCCA 6541 TTATATTGGT GCTTGAATTT ATAAAATACA TCCACATGGT TTGTTAAAAT CATGACGTAG 6601 GCAGAATAGG ATTTTTATCC TGTTGGCATC TATTTGTTAA AATGTTTTCA CATCTTGATC 6661 CCTTCCTAGG TAGTAGTTAG TTGCGTACTG TTCTTTGATA AAAATCATAC CCATAACATC 6721 CTAAAGGACA TAGGGTGCCT GGAGGGGAAT GAAAACGAGC CACGTGGGAT ATGTAGCCTG 6781 GTTTTCAGGG AGATGTTGAT GTTTTTTTGC TTTTGTTACT TTAATGATAA ACCTGTCTGT 6841 TGATGCCTGG TCTCATGATG TCATGTCACA AGGCCCTGTG ATGTTACTCC CCCATGTGAA 6901 TTTCCCACAA TGAAGGCTGC TCTTTCTTTT CTGTTTCACT CTCTTAGATC ACCGGCGTAA 6961 TCAACCCAGC GTTGGACAAA TACTTTCCGT CAGACTCTGG AGTGAGAATC ATAGCTGAGC 7021 CCGGCAGATA CTATGTTGCA TCAGCTTTCA CGCTTGCAGT TAATATCATT GCCAAGAAAA 7081 TTGTATTAAA GGAACAGACG GCCTCTGATG GTATGTATAA AGGACGAATC ACTTCATGTA 7141 TAACTGAAAG CTGATGCAAA AAGTCATTAA GATTGTTGAT CTGCCTTTCT AGACGAACAT 7201 GACTCGAGTG AGCAGACCTT TATGTATTAT GTGAATGATG GCGTCTATGG ATCATTTAAT 7261 TGCATACTCT ATGACCACGC ACATGTAAAG CCCCTTCTGC AAAAGGTAAT TTCTGAGCAT 7321 ACTGTATAAA ACAATTAAGA GGACTGGTCA CAACACCTGT AATTAACTAC TACTTCCTCT 7381 CTCCGTCTCT TTATATAGAG ACCTAAACCA GATGAGAAGT ATTATTCATC CAGCATATGG 7441 GGACCAACAT GTGATGCCCT CGATCGGATT GTTGAGCGCT CTGACCTGCC TCAAATGCAT 7501 GTGGGTGATT GGATGCTCTE TGAAAACATG GGCGCTTACA CTGTTGCTGC TGCCTCTACG 7561 TTCAATGGCT TGCAGAGGGC GACCATGTAC TATGTGATGT CAGGGCCTGC GTGGTAAGTA 7621 AGCCATGCAT GTTGATGGTG CTGCCAAGAA TAGGCACCTT CTTGGATGTC TGCTTCTTGT 7681 CTAGACGAAT AAGAAATTGT CTTGCCTAAG ATTAAATATA TATGGATATT TTTCCTAAGA 7741 AAAGTTTTAG AAAAGACTGA TGAGTGTATT TCTATGTAAT TGCAATATAT TTAAGTTCAT 7801 GCCATGTGTC TTGTGGTTTC CTTATTACCA AAACGGTGAC TGAAGAAACG CTTGCTTTAG 7861 AAATACATTG AATTGGCCAG GTGTGCTGGC TCACACCTGA AATCACAACA CATTGGGAGG 7921 CCAAGGCAGA AGGATCACTT GAGCCCAGGA GTTCGAGCCT GGGCAACATA GTGAGACCCT 7981 GTCTCTACAA AAAATTAAAA AATTAGTTGG CCATGGTAGT GGGCGCCTGT AGTCCCAGCT 8041 GCTTGGCTAA GGTGAGAGGT TTGCTTGAGC CTGGGAGGTT GAGGCTGCGG TGAGCTATGA 8101 TAGCACCATT GTATTCCAGC CTGAGTAACA GAGAAAGACC CTGTCTCAGA AAAAAAAAAA 8161 ATACATTGAA TTGTTTCCTG ATGGGAAGTA AATACTCTCA TGCCCAGTTA GGAGTGAGTC 8221 AGGGTTTTTA ATATGCCACT TTTTCTTTCT CAGGCAACTC ATGCAGCAAT TCCAGAACCC 8281 CGACTTCCCA CCCGAAGTAG AGGAACAGGA TGCCAGCACC CTGCCTGTGT CTTGTGCCTG 8341 GGAGAGTGGG ATGAAACGCC ACAGAGCAGC CTGTGCTTCG GCTAGTATTA ATGTGTAGAT 8401 AGCACTCTGG TAGCTGTTAA CTGCAAGTTT AGCTTGAATT AAGGGATTTG GGGGGACCAT 8461 GTAACTTAAT TACTGCTAGT TTTGAAATGT CTTTGTAAGA GTAGGGTCGC CATGATGCAG 8521 CCATATGGAA GACTAGGATA TGGGTCACAC TTATCTGTGT TCCTATGGAA ACTATTTGAA 8581 TATTTGTTTT ATATGGATTT TTATTCACTC TTCAGACACG CTACTCAAGA GTGCCCCTCA 8641 GCTGCTGAAC AAGCATTTGT AGCTTGTACA ATGGCAGAAT GGGCCAAAAG CTTAGTGTTG 8701 TGACCTGTTT TTAAAATAAA GTATCTTGAA ATAATTAGGC ATTGGGACGT TTTTATGGTG 8761 TGTTCATTCC AGACAGTTCA CGAATCCCGT ATAGCTCGCT CTGATTCTCA GAGAACAATG 8821 AGTGGGTCCA CCCACACACA GGTAGGAGGA CAGGTGAGAC GGAAGCCCCA TCCTCCCATG 8881 TGGACGGTGC ACATCTGCTC AGCCCACCCC ACATGTCCAG AGTTGGCTGC AAACTCCTTG 8941 TCCAGAGCCT CTGGTGGTGG GACCTACTTA AGTCTGACGG ACCTGTCCTG TCCAGGCCAG 9001 TGCCCAGGGA AGGTGTGGGA GGCCCTTTGA GCCTGGCCTG CAG GENBANK ID: X57522 DEFINITION H. SAPIENS RING4 CDNA. VERSION X57522.1 GI:36060 CDS 31..2457 /CODON_START=1 1 GCGGCCGCTT TCGATTTCGC TTTCCCCTAA ATGGCTGAGC TTCTCGCCAG CGCAGGATCA 61 GCCTGTTCCT GGGACTTTCC GAGAGCCCCG CCCTCGTTCC CTCCCCCAGC CGCCAGTAGG 121 GGAGGACTCG GCGGTACCCG GAGCTTCAGG CCCCACCGGG GCGCGGAGAG TCCCAGACCC 181 GGCCGGGACC GGGACGGCGT CCGAGTGCCA ATGGCTAGCT CTAGGTGTCC CGCTCCCCGC 241 GGGTGCCGCT GCCTCCCCGG AGCTTCTCTC GCATGGCTGG GGACAGTACT GCTACTTCTC 301 GCCGACTGGG TGCTGCTCCG GACCGCGCTG CCCCGCATAT TCTCCCTGCT GGTGCCCACC 361 GCGCTGCCAC TGCTCCGGGT CTGGGCGGTG GGCCTGAGCC GCTGGGCCGT GCTCTGGCTG 421 GGGGCCTGCG GGGTCCTCAG GGCAACGGTT GGCTCCAAGA GCGAAAACGC AGGTGCCCAG 481 GGCTGGCTGG CTGCTTTGAA GCCATTAGCT GCGGCACTGG GCTTGGCCCT GCCGGGACTT 541 GCCTTGTTCC GAGAGCTGAT CTCATGGGGA GCCCCCGGGT CCGCGGATAG CACCAGGCTA 601 CTGCACTGGG GAAGTCACCC TACCGCCTTC GTTGTCAGTT ATGCAGCGGC ACTGCCCGCA 661 GCAGCCCTGT GGCACAAACT CGGGAGCCTC TGGGTGCCCG GCGGTCAGGG CGGCTCTGGA 721 AACCCTGTGC GTCGGCTTCT AGGCTGCCTG GGCTCGGAGA CGCGCCGCCT CTCGCTGTTC 781 CTGGTCCTGG TGGTCCTCTC CTCTCTTGGG GAGATGGCCA TTCCATTCTT TACGGGCCGC 841 CTCACTGACT GGATTCTACA AGATGGCTCA GCCGATACCT TCACTCGAAA CTTAACTCTC 901 ATGTCCATTC TCACCATAGC CAGTGCAGTG CTGGAGTTCG TGGGTGACGG GATCTATAAC 961 AACACCATGG GCCACGTGCA CAGCCACTTG CAGGGAGAGG TGTTTGGGGC TGTCCTGCGC 1021 CAGGAGACGG AGTTTTTCCA ACAGAACCAG ACAGGTAACA TCATGTCTCG GGTAACAGAG 1081 GACACGTCCA CCCTGAGTGA TTCTCTGAGT GAGAATCTGA GCTTATTTCT GTGGTACCTG 1141 GTGCGAGGCC TATGTCTCTT GGGGATCATG CTCTGGGGAT CAGTGTCCCT CACCATGGTC 1201 ACCCTGATCA CCCTGCCTCT GCTTTTCCTT CTGCCCAAGA AGGTGGGAAA ATGGTACCAG 1261 TTGCTGGAAG TGCAGGTGCG GGAATCTCTG GCAAAGTCCA GCCAGGTGGC CATTGAGGCT 1321 CTGTCGGCCA TGCCTACAGT TCGAAGCTTT GCCAACGAGG AGGGCGAAGC CCAGAAGTTT 1381 AGGGAAAAGC TGCAAGAAAT AAAGACACTC AACCAGAAGG AGGCTGTGGC CTATGCAGTC 1441 AACTCCTGGA CCACTAGTAT TTCAGGTATG CTGCTGAAAG TGGGAATCCT CTACATTGGT 1501 GGGCAGCTGG TGACCAGTGG GGCTGTAAGC ACTCCGAACC TTCTCACATT TCTTCTCTAC 1561 CAGATCCAGT TCACCCAGGC TGTGGAGGTA CTGCTCTCCA TCTACCCCAG AGTACAGAAG 1621 GCTGTGGGCT CCTCAGAGAA AATATTTGAG TACCTGGACC GCACCCCTCG CTGCCCACCC 1681 AGTGGTCTGT TGACTCCCTT ACACTTGGAG GGCCTTGTCC AGTTCCAAGA TGTCTCCTTT 1741 GCCTACCCAA ACCGCCCAGA TGTCTTAGTG CTACAGGGGC TCACATTCAC CCTACGCCCT 1801 GGCGAGGTGA CGGCGCTGGT GCGACCCAAT GGGTCTGGGA AGAGCACAGT CGCTGCCCTG 1861 CTGCACAATC TGTACCAGCC CACCGGGCGA CAGCTGCTGT TGGATGGGAA GCCCCTTCCC 1921 CAATATGAGC ACCGCTACCT GCACAGGCAG GTGGCTGCAG TGGGACAAGA GCCACAGGTA 1981 TTTGGAAGAA GTCTTCAAGA AAATATTGCC TATGGCCTGA CCCAGAAGCC AACTATGGAG 2041 GAAATCACAG CTGCTGCAGT AAACTCTGGG GCCCATACTT TCATCTCTGG ACTCCCTCAG 2101 GGCTATGACA CAGAGGTAGA CGAGGCTGGG AGCCAGCTGT CAGGGGCTCA GCGACAGGCA 2161 GTGGCGTTGG CCCGAGCATT GATCCGGAAA CCCTGTGTAC TTATCCTGGA TGATGCCACC 2221 AGTGCCCTGG ATGCAAACAG CCAGTTACAG GTGGAGCAGC TCCTGTACGA AAGCCCTGAG 2281 CGGTACTCCC GCTCAGTGCT TCTCATCACC CAGCACCTCA GCCTGGTGGA GCAGGCTGAC 2341 CACATCCTCT TTCTGGAAGG AGGCGCTATC CGGGAGCGGG GAACCCACCA GCAGCTCATG 2401 GAGAAAAAGG GGTGCTACTG GGCCATGGTG CAGGCTCCTG CAGATGCTCC AGAATCAAAG 2461 CCTTCTCAGA CCTGCGCACT CCATCTCCCT CCCTTTTCTT CTCTCTGTGG TGGAGAACCA 2521 CAGCTGCAGA GTAGCAGCTC CCTCCAGGAT GAGTTACTTG AAATTTGCCT TGAGTGTGTT 2581 ACCTCCTTTC CAAGCTCCTC GTGATAATGC AGACTTCCTG GAGTACAAAC ACAGGATTTG 2641 TAATTCCTAC TGTAACGGAG TTTAGAGCCA GGGCTGATGC TTTGGTGTGG CCAGCACTCT 2701 GAAACTGAGA AATGTTCAGA ATGTACGGAA AGATGATCAC CTATTTTCAA CATAACTGAA 2761 GGCATATGCT GGCCCATAAA CACCCTGTAG GTTCTTGATA TTTATAATAA AATTGGTGTT 2821 TTGT GENBANK ID: D00017.1 DEFINITION HOMO SAPIENS MRNA FOR LIPOCORTIN II, COMPLETE CDS. VERSION D00017.1 GI:219909 CDS 50..1069 /CODON_START=1 1 CATTTGGGGA CGCTCTCAGC TCTCGGCGCA CGGCCCAGCT TCCTTCAAAA TGTCTACTGT 61 TCACGAAATC CTGTGCAAGC TCAGCTTGGA GGGTGATCAC TCTACACCCC CAAGTGCATA 121 TGCGTCTGTC AAAGCCTATA CTAACTTTGA TGCTGCGCGG GATGCTTTGA ACATTGAAAC 181 AGCCATCAAC ACCAAACGTG TGGATGAGGT CACCATTGTC AACATTTTGA CCAACCGCAG 241 CAATGCACAG AGACAGGATA TTGCCTTCGC CTACCAGAGA AGGACCAAAA AGGAACTTGC 301 ATCAGCACTG AAGTCAGCCT TATCTGGCCA CCTGGAGACG GTGATTTTGG GCCTATTGAA 361 GACACCTGCT CAGTATGACG CTTCTGAGCT AAAAGCTTCC ATGAAGGGGC TGGGAACCGA 421 CGAGGACTCT CTCATTGAGA TCATCTGCTC CAGAACCAAC CAGGAGCTGC AGGAAATTAA 481 CAGAGTCTAC AAGGAAATGT ACAAGACTGA TCTGGAGAAG GACATTATTT CGGACACATC 541 TGGTGACTTC CGCAAGCTGA TGGTTGCCCT GGCAAAGGGT AGAAGAGCAG AGCATGGCTC 601 TGTCATTGAT TATGAACTGA TTGACCAAGA TGCTCGGGAT CTCTATGACG CTGGAGTGAA 661 GAGGAAAGGA ACTGATGTTC CCAAGTGGAT CAGCATCATG ACCGAGGGGA GCGTGCCCCA 721 CCTCCAGAAA GTATTTGATA GGTACAAGAG TTACAGCCCT TATGACATGT TGGAAAGCAT 781 CAGGAAAGAG GTTAAAGGAG ACCTGGAAAA TGCTTTCCTG AACCTGGTTC AGTGCATTCA 841 GAACAAGCCC CTGTATTTTG CTGATCGGCT GTATGACTCC ATGAAGGGCA AGGGGACGCG 901 AGATAAGGTC CTGATCAGAA TCATGGTCTC CCGCAGTGAA GTGGACATGT TGAAAATTAG 961 GTCTGAATTC AAGAGAPAGT ACGGCAAGTC CCTGTACTAT TATATGCAGG AAGACACTAA 1021 GGGCGACTAC CAGAAAGCGC TGCTGTACCT GTGTGGTGGA GATGACTGAA GCCCGACACG 1081 GCCTGAGCGT CCAGAAATGG TGCTCACCAT GCTTCCAGCT AACAGGTCTA GAAAACCAGC 1141 TTGCGAATAA CAGTCCCCGT GGCCATCCCT GTGAGGGTGA CGTTAGCATT ACCCCCAACC 1201 TCATTTTAGT TGCCTAAGCA TTGCCTGGCC TTCCTGTCTA GTCTCTCCTG TAAGCCAAAG 1261 AAATGAACAT TCCAAGGAGT TGGAAGTGAA GTCTATGATG TGAAACACTT TGCCTCCTGT 1321 GTACTGTGTC ATAAACAGAT GAATAAACTG AATTTGTACT TT GENBANK ID: M10277.1 DNA LINEAR DEFINITION HUMAN CYTOPLASMIC BETA-ACTIN GENE, COMPLETE CDS. VERSION M10277.1 GI:177967 1 GCCCAGCACC CCAAGGCGGC CAACGCCAAA ACTCTCCCTC CTCCTCTTCC TCAATCTCGC 61 TCTCGCTCTT TTTTTTTTTC GCAAAAGGAG GGGAGAGGGG GTAAAAAAAT GCTGCACTGT 121 GCGGCGAAGC CGGTGAGTGA GCGGCGCGGG GCCAATCAGC GTGCGCCGTT CCGAAAGTTG 181 CCTTTTATGG CTCGAGCGGC CGCGGCGGCG CCCTATAAAA CCCAGCGGCG CGACGCGCCA 241 CCACCGCCGA GACCGCGTCC GCCCGCGAGC ACAGAGCCTC GCCTTTGCCG ATCCGCCGCC 301 CGTCCACACC CGCCGCCAGG TAAGCCCGGC CAGCCGACCG GGGCATGCGG CCGCGGCCCT 361 TCGCCCGTGC AGAGCCGCCG TCTGGGCCGC AGCGGGGGGC GCATGGGGCG GAACCGGACC 421 GCCGTGGGGG GCGCGGGAGA AGCCCCTGGG CCTCCGGAGA TGGGGGACAC CCCACGCCAG 481 TTCGCAGGCG CGAGCCCGCG CTCGGGCGGG CGCGCTCCGG GCGTGCCGCT CTCGGGGCGG 541 GGGCAACCGG CGGCGTCTTT GTCTGAGCCG GCCTCTTGCC AATGGGGATC GCACCCTGGG 601 CGCGGCGTAG CCCCCGTCAG GCCCGGTGGG GGCTCGGGCG CCATGCGCGT GCGCGCTGGT 661 CCTTTGGGCG CTAACTGCCT GCGCGCTGGG AATTGCCGCT AATTGCCCGT GCGCGCTGCG 721 ACTCAATGCC GCTAATCGCG CGTCCGTTCT GGGGCCCGGG CCCTTGCGCC ACTTCCTGCC 781 CGAGCCGCTG GCGCCCGAGG GTGTGGCCGC TGCGTGCGCG CCCGCGACCC GGTCGCTGTT 841 TCAACCGGGC GGAGGCCGGG CTCCCGCCCC GTTCGGAGGG GGTTGGGGCC TGGCTTCCTG 901 CCGCCCGCCG CGGGCACGCC TCCGACCAGT GTTTGCCTTT TATGGTAATA ACGCGGCCGG 961 CCCCCCTTCC TTTGTCCCCA ATCTCGCCGC GCGCCGGCGC CCCCTGGCGG CCTAAGGACT 1021 CGGCGCGCCG GAAGTGGCCA GGGCGGGGGC GACTTCGGCT CACAGCGCGC CCGGCTATTC 1081 TCGCAGCTCA CCATGGATGA TGATATCGCC GCGCTCGTCG TCGACAACGG CTCCGGCATG 1141 TGCAAGGCCG GCTTCCCGGG CCACGATGCC CCCCGGGCCG TCTTCCCCTC CATCGTGGGG 1201 CGCCCCAGGC ACCAGGTAGG GGAGCTGGCT GGGTGGGGCA GCCCCGGGAG CCGGCGGGAG 1261 GCAAGGGCGC TTTCTCTGCA CAGGAGGCTG CCGGTTTCCG GGGTGGGCTG CGCCCGTGCT 1321 CAGGGCTTCT TGTCCTTTCC TTCCCAGGGC GTGATGGTGG GCATGGGTCA GAAGGATTCC 1381 TATGTGGGCG ACGAGGCCCA GAGCAAGAGA GGCATCCTCA CCCTGAAGTA CCCCATCGAG 1441 CACGCCATGG TCACCAACTG GGACGACATG GAGAAAATCT GGCACCACAC CTTCTACAAT 1501 GAGCTGCGTG TGGCTCCCGA GGAGCACCCC GTGCTGCTGA CCGAGGCCCC CCTGAACCCC 1561 AAGGCCAACC GCGAGAAGAT GACCCAGGTG AGTGGCCCGC TACCTCTTCT GGTGGCCGCC 1621 TCCCTCCTTC CTGGCCTCCC GGAGCTGCGC CCTTTCTCAC TGGTTCTCTC TTCTGCCGTT 1681 TTCCGTAGGA CTCTCTTCTC TGACCTGAGT CTCCTTTGGA ACTCTGCAGG TTCTATTTGC 1741 TTTTTCCCAG ATGAGCTCTT TTTCTGGTGT TTGTCTCTCT GACTAGGTGT CTGAGACAGT 1801 GTTGTGGGTG TAGGTACTAA CACTGGCTCG TGTGACAAGG CCATGAGGCT GGTGTAAAGC 1861 GGCCTTGGAG TGTGTATTAA GTAGGCGCAC AGTAGGTCTG AACAGACTCC CCATCCCAAG 1921 ACCCCAGCAC ACTTAGCCGT GTTCTTTGCA CTTTCTGCAT GTCCCCCGTC TGGCCTGGCT 1981 GTCCCCAGTG GCTTCCCCAG TGTGACATGG TGCATCTCTG CCTTACAGAT CATGTTTGAG 2041 ACCTTCAACA CCCCAGCCAT GTACGTTGCT ATCCAGGCTG TGCTATCCCT GTACGCCTCT 2101 GGCCGTACCA CTGGCATCGT GATGGACTCC GGTGACGGGG TCACCCACAC TGTGCCCATC 2161 TACGAGGGGT ATGCCCTCCC CCATGCCATC CTGCGTCTGG ACCTGGCTGG CCGGGACCTG 2221 ACTGACTACC TCATGAAGAT CCTCACCGAG CGCGGCTACA GCTTCACCAC CACGGCCGAG 2281 CGGGAAATCG TGCGTGACAT TAAGGAGAAG CTGTGCTACG TCGCCCTGGA CTTCGAGCAA 2341 GAGATGGCCA CGGCTGCTTC CAGCTCCTCC CTGGAGAAGA GCTACGAGCT GCCTGACGGC 2401 CAGGTCATCA CCATTGGCAA TGAGCGGTTC CGCTGCCCTG AGGCACTCTT CCAGCCTTCC 2461 TTCCTGGGTG AGTGGAGACT GTCTCCCGGC TCTGCCTGAC ATGAGGGTTA CCCCTCGGGG 2521 CTGTGCTGTG GAAGCTAAGT CCTGCCCTCA TTTCCCTCTC AGGCATGGAG TCCTGTGGCA 2581 TCCACGAAAC TACCTTCAAC TCCATCATGA AGTGTGACGT GGACATCCGC AAAGACCTGT 2641 ACGCCAACAC AGTGCTGTCT GGCGGCACCA CCATGTACCC TGGCATTGCC GACAGGATGC 2701 AGAAGGAGAT CACTGCCCTG GCACCCAGCA CAATGAAGAT CAAGGTGGGT GTCTTTCCTG 2761 CCTGAGCTGA CCTGGGCAGG TCAGCTGTGG GGTCCTGTGG TGTGTGGGGA GCTGTCACAT 2821 CCAGGGTCCT CACTGCCTGT CCCCTTCCCT CCTCAGATCA TTGCTCCTCC TGAGCGCAAG 2881 TACTCCGTGT GGATCGGCGG CTCCATCCTG GCCTCGCTGT CCACCTTCCA GCAGATGTGG 2941 ATCAGCAAGC AGGAGTATGA CGAGTCCGGC CCCTCCATCG TCCACCGCAA ATGCTTCTAG 3001 GCGGACTATG ACTTAGTTGC GTTACACCCT TTCTTGACAA AACCTAACTT GCGCAGAAAA 3061 CAAGATGAGA TTGGCATGGC TTTATTTGTT TTTTTTGTTT TGTTTTGGTT TTTTTTTTTT 3121 TTTTGGCTTG ACTCAGGATT TAAAAACTGG AACGGTGAAG GTGACAGCAG TCGGTTGGAG 3181 CGAGCATCCC CCAAAGTTCA CAATGTGGCC GAGGACTTTG ATTGCATTGT TGTTTTTTTA 3241 ATAGTCATTC CAAATATGAG ATGCATTGTT ACAGGAAGTC CCTTGCCATC CTAAAAGCCA 3301 CCCCACTTCT CTCTAAGGAG AATGGCCCAG TCCTCTCCCA AGTCCACACA GGGGAGGTGA 3361 TAGCATTGCT TTCGTGTAAA TTATGTAATG CAAAATTTTT TTAATCTTCG CCTTAATACT 3421 TTTTTATTTT GTTTTATTTT GAATGATGAG CCTTCGTGCC CCCCCTTCCC CCTTTTTGTC 3481 CCCCAACTTG AGATGTATGA AGGCTTTTGG TCTCCCTGGG AGTGGGTGGA GGCAGCCAGG 3541 GCTTACCTGT ACACTGACTT GAGACCAGTT GAATAAAAGT GCACACCTTA AAAATGAGGC 3601 CAAGTGTGAC TTTGTGGTGT GGCTGGGTTG GGGGCAGCAG AGGGTG GENBANK ID: XM_042788.1 DEFINITION HOMO SAPIENS ALDOLASE B, FRUCTOSE-BISPHOSPHATE (ALDOB), MRNA. VERSION XM_042788.1 GI:14738248 CDS 126..1220 /CODON_START=1 1 AAAAACATGA TGAGAAGTCT ATAAAAATTG TGTGCTACCA AAGATCTGTC TTATTTGGCA 61 GCTGCTGCCT CACCCACAGC TTTTGATATC TAGGAGGACT CTTCTCTCCC AAACTACCTG 121 TCACCATGGC CCACCGATTT CCAGCCCTCA CCCAGGAGCA GAAGAAGGAG CTCTCAGAAA 181 TTGCCCAGAG CATTGTTGCC AATGGAAAGG GGATCCTGGC TGCAGATGAA TCTGTAGGTA 241 CCATGGGGAA CCGCCTGCAG AGGATCAAGG TGGAAAACAC TGAAGAGAAC CGCCGGCAGT 301 TCCGAGAAAT CCTCTTCTCT GTGGACACTT CCATCAACCA GAGCATCGGG GGTGTCATCC 361 TTTTCCACGA GACCCTCTAC CAGAAAGACA GCCAGGGAAA GCTGTTCACA AACATCCTCA 421 AGGAAAAGGG GATCGTGGAG CGAATCAAGT TAGACCAAGG AGGTGCTCCT CTTGCAGGAA 481 CAAACAAAGA AACCACCATT CAAGGGCTTG ATGGCCTCTC AGAGCGCTGT GCTCACTACA 541 AGAAAGATGG TGTTGACTTT GGGAAGTGGC GTGCTGTGCT GAGGATTGCC GACCAGTGTC 601 CATCCAGCCT CGCTATCCAG CAAAACGCCA ACGCCCTGGC TCGCTACGCC AGCATCTGTC 661 AGCAGAATGG ACTGGTACCT ATTGTTGAAC CAGAGGTAAT TCCTGATGGA GACCATGACC 721 TGGAACACTG CCAGTATGTT ACTGAGAAGG TCCTGGCTGC TGTCTACAAG GCCCTGAATG 781 ACCATCATGT TTACCTGGAG GGCACCCTGC TAAAGCCCAA CATGGTGACT GCTGGACATG 841 CCTGCACCAA GAAGTATACT CCAGAACAAG TAGGTATGGC CACCGTAACA GCTCTCCACC 901 GTACTGTTCC TGCAGCTGTT CCTGGCATCT GCTTTTTGTC TGGTGGCATG AGTGAAGAGG 961 ATGCCACTCT CAACCTCAAT GCTATCAACC TTTGCCCTCT ACCAAAGCCC TGGAAACTAA 1021 GTTTCTCTTA TGGACGGGCC CTGCAGGCCA GTGCACTGGC TGCCTGGGGT GGCAAGGCTG 1081 CAAACAAGGA GGCAACCCAG GAGGCTTTTA TGAAGCGGGC CATGGCTAAC TGCCAGGCGG 1141 CCAAAGGACA GTATGTTCAC ACGGGTTCTT CTGGCGCTGC TTCCACCCAG TCCCTCTTCA 1201 CAGGCTGCTA TACCTACTAC GGTCCAATGC CCGCCAGCCT ACCTCCAGTG CTTCTACTAG 1261 GAGGGCTGAA AGGGAGCAAC TTTTCCTCCA ATCCTGGAAA TTCGACACAA TTAGATTTGA 1321 ACTGCTGGAA ATACAACACA TGTTAAATCT TAAGTACAAG GCGGAAAAAA TAAATCAGTT 1381 ATTGAAACAT AAAAATGAAT ACCAAGGACC TGATCAAATT TCACACAGCA GTTTCCTTGC 1441 AACACTTTCA GCTCCCCATG CTCCAGAATA CCCACCCAAG AAAATAATAG GCTTTAAAAC 1501 AATATCGGCT CCTCATCCAA AGAACAACTG CTGATTGAAA CACCTCATTA GCTGAGTGTA 1561 GAGAAGTGCA TCTTATGAAA CAGTCTTAGC AGTGGTAGGT TGGGAAGGAG ATAGCTCCAA 1621 CCAAAAAAGA AATAAATATT CTATAAACCT TC GENBANK ID: NM_005317.2 DEFINITION HOMO SAPIENS GRANZYME N (LYMPHOCYTE MET-ASE 1) (GZMM), MRNA. VERSION NM_005317.2 GI:7108347 CDS 46..819 /CODON_START=1 1 GGCTCGGGGC CGGGGCCAGC ACCCACACTG GGTCTCCACA GCGGCATGGA GGCCTGCGTG 61 TCTTCACTGC TGGTGCTGGC CCTGGGGGCC CTGTCAGTAG GCAGCTCCTT TGGGACCCAG 121 ATCATCGGGG GCCGGGAGGT GATCCCCCAC TCGCGCCCGT ACATGGCCTC ACTGCAGAGA 181 AATGGCTCCC ACCTGTGCGG GGGTGTCCTG GTGCACCCAA AGTGGGTGCT GACGGCTGCC 241 CACTGCCTGG CCCAGCGGAT GGCCCAGCTG AGGCTGGTGC TGGGGCTCCA CACGCTGGAC 301 AGCCCCGGTC TCACCTTCCA CATCAAGGCA GCCATCCAGC ACCGTGGCTA CAAGCCCGTC 361 CCTGCCCTGG AGAACGACCT CGCGCTGCTT CAGCTGGACG GGAAAGTGAA GCCCAGCCGG 421 ACCATCCGGC CGTTGGCCCT GCCCAGTAAG CGCCAGGTGG TGGCAGCAGG GACTCGGTGC 481 AGGATGCCGG GCTGGGGGCT GACCGACCAG GGCGGGCGCC TGTCCCGGGT GCTGCGGGAG 541 CTGGACCTCC AAGTGCTGGA CACCCGCATG TGTAACAACA GCCGCTTCTG GAACGGCAGC 601 CTCTCCCCCA GCATGGTCTG CCTGGCGGGC GACTCCAAGG ACCAGGCTCC CTGCAAGGGT 661 GACTCGGGCG GGCCCCTGGT GTGTGGCAAA GGCCGGGTGT TGGCCGGAGT CCTGTCCTTC 721 AGCTCCAGGG TCTGCACTGA CATCTTCAAG CCTCCCGTGG CCACCGCTGT GGCGCCTTAC 781 GTGTCCTGGA TCAGGAAGGT CACCGGCCGA TCGGCCTGAT GCCCTGGGGT GATGGGGACC 841 CCCTCGCTGT CTCCACAGGA CCCTTCCCCT CCAGGGGTGC AGTGGGGTGG GTGAGGACGG 901 GTGGGAGGGA CAGGGAGGGA CCAATAAATC ATAATGAAGA AACGCTC GENBANK ID: XM_003595.2 DEFINITION HOMO SAPIENS GLOTAMYL AMINOPEPTIDASE (ANINOPEPTIDASE A) (ENPEP) ,MRNA. VERSION XM_003595.2 GI:13647140 CDS 1401..2957 /CODON_START=1 1 TCCAATTTAA AAAGGAAGTC TGCTGACGTT AGTTAGTTAA ATTTAACATC TTTTTATGTG 61 TAACACTTGA CTTTGGAAGC AAAAATGAAC TTTGCGGAGA GAGAGGGCTC TAAGAGATAC 121 TGCATTCAAA CGAAACATGT GGCCATTCTC TGTGCGGTGG TGGTGGGTGT AGGATTAATA 181 GTGGGACTTG CCGTGGGCTT GACCAGATGG TGTGACTCCA GCGGGGACGG CGGGCCGGGC 241 ACTGCGCCAG CTCCTTCCCA CCTGCCTTCT TCCACGGCCA GCCCCTCAGG TCCTCCTGCC 301 CAGGACCAGG ACATCTGCCC GGCCAGTGAG GATGAGAGCG GACAGTGGAA AAACTTTCGA 361 CTGCCGGACT TCGTCAACCC AGTCCACTAC GACCTGCACG TGAAGCCCCT GTTGGAGGAG 421 GACACGTACA CGGGCACCGT GAGGATGTGC ATCAACCTGA GCGCTGCCAC CCGGTACCTG 481 TGGCTGCACC TCCGGGAGAC CAGGATGACG CGGCTCCCGG AGCTGAAGAG GCCCTCTGGG 541 GACCAGGTGC AAGTCCGGAG GTGTTTCGAG TACAAAAAGC AGGAGTACGT GGTGGTCGAG 601 GCGGAGGAAG AGCTTACCCC CAGCAGTGGA GATGGCCTGT ATCTCCTGAC CATGGAGTTC 661 GCCGGCTGGC TGAACGGCTC CCTCGAGGGA TTTTATAGAA CCACCTACAC GGAGAACGGA 721 CAAGTCAACA GCATAGTGGC CACCGATCAT GAACCAACAG ATCCCAGGAA ATCTTTTCCT 781 TGTTTTGATG AGCCCAACAA AAAGGCAACT TATACAATAT CTATCACCCA TCCCAAAGAA 841 TACGGACCAC TTTCAAATAT GCCAGTGGCG AAACAACAGT CAGTGGATGA TAAATGGACT 901 CGAACAACTT TTGAGAAGTC TGTCCCCATG AGCACGTACC TGGTGTGCTT TGCTGTACAT 961 CAATTTGACT CTGTAAAGAG AATATCAAAT AGTGGAAAAC CTCTTACAAT TTATGTCCAC 1021 CCAGAGCAAA AGCACACAGC CGAATATGCT GCAAACATAA CTAAAAGTGT GTTTGATTAT 1081 TTTGAAGAAT ACTTTGCTAT GAATTATTCT CTTCCTAAAT TAGATAAAAT CGCTATTCCA 1141 GATTTTGGCA CTGGTGCCAT GGAGAACTGG CGACTCATCA CGTACAGAGA AACGAACCTG 1201 CTTTATGACC CTAAGGAATC AGCCTCATCA AACCAACAGA GGGTGGCCAC TGTGGTTGCC 1261 CATGAACTTG TGCATCAGTG GTTTCGAAAT ATTGTGACCA TGGACTGGTG GGAAGACTTG 1321 TGCCTAAATG AAGGATTTGC TTCTTTCTTT GAGTTTCTGG GAGTAAACCA TGCAGAAACA 1381 GACTGGCAAA TGGTGACCAA ATGTTACTTG AAGATGTATT ACCTGTTCAA GAGGATGATT 1441 CTTTGATGTC TTCCCATCCA ATTATTGTGA CTGTGACAAC CCCTGATGAA ATAACATCTC 1501 TTTTTGATGG AATATCCTAT AGCAAGGGAT CTTCTATTTT GAGAATGCTT GAAGACTGGA 1561 TAAAACCAGA GAATTTTCAA AAAGGATGTC AGATGTACTT GGAAAAATAC CAATTCAAGA 1621 ATGCAAAAAC TTCTGATTTT TGGGCAGCAC TGGAAGAGGC AAGTAGGCTA CCAGTGAAAG 1681 AAGTAATGGA CACCTGCACC AGACAGATGG CTTATCCTGT GCTTAACGTG AACGGTGTCA 1741 AGAACATCAC ACAGAAACGC TTTTTGTTGC ACCCAAGAGC TAACCCTTCT CAGCCCCCTT 1801 CAGATCTTCG TTATACATGG AATATCCCAG TTAAATGGAC TGAAGATAAT ATAACAAGCA 1861 GTCTGTTATT TAATAGGTCA GAAAAAGAAG GAATGACTTT GAACTCCTCT AATCCTAGTG 1921 GAAATGCTTT TCTCAAAATA AACCCACATC ATATTGGGTT TTATCGTGTA AATTATGAAG 1981 TAGCAACTTG GGACTCGATA CCTACAGCGC TCTCCTTGAA CCACAAGACA TTTTCTTCAG 2041 CAGATCGTCC AAGTCTTATT GATGATGCTT TTGCCTTGGC AAGAGCTCAA CTTCTACATT 2101 ATAAGGTGGC TTTGAACTTG ACCAAGTATC TCAAAACGGA AGAGAATTTT TTACCATGGC 2161 AGAGAGTAAT TTCAGCTGTA ACCTACATCA TTAGCATGTT TGAAGATGAT AAAGAGCTAT 2221 ATCCTATGAT TGAGGAATAC TTCCAAGGTC AAGTGAAGCC TATTGCAGAT TCTCTGGGAT 2281 GGAATGATGC TGGAGACCAT GTCACAAAGT TACTCCGTTC CTCCGTGTTA GGGTTTGCGT 2341 GCAAGATGGG AGACAGAGAA GCCTTGAACA ATGCTTCCTC GTTATTTGAG CAGTGGCTAA 2401 ATGCCACTGT AAGCCTTCCC GTAAATCTCA GGCTTCTGGT GTATCGGTAT GGGATGCAGA 2461 ACTCTGGCAA TGAGATTTCA TGGAACTACA CTCTTGAGCA ATACCAGAAA ACTTCATTAG 2521 CTCAAGAAAA AGAAAAACTG CTGTATGGAT TAGCATCAGT GAAGAACGTT ACTCTTTTGT 2581 CAAGGTATTT GGATTTGCTC AAGGACACGA ACCTTATTAA AACTCAGGAT GTGTTTACAG 2641 TCATTCGATA TATCTCATAT AACAGCTATG GGAAGAACAT GGCCTGGAAT TGGATACAAC 2701 TCAACTGGCA CTATCTAGTC AACAGATATA CACTCAATAA CAGAAACGTT GGCCGAATTG 2761 TCACAATAGC AGAGCCATTC AACACTGAAC TGCAACTGTG GCAGATGGAG AGCTTTTTTG 2821 CAAAATATCC ACAAGCTGGA GCAGGAGAAA AACCTAGGGA ACAAGTGCTG GAAACAGTGA 2881 AAAACAATAT AGAGTGGCTA AAACAACATA GAAACACCAT CAGAGAATGG TTTTTTAATT 2941 TACTTGAGAG TGGTTAATGT ATTCAAATGT TAGAGTTTAA TTTTGTGAAT CTATTGTTTC GENBANK ID: U34683.1 DEFINITION HUMAN GLUTATHIONE SYNTHETASE MRNA, COMPLETE CDS. VERSION 034683.1 GI:1236349 CDS 41..1465 /CODON_START=1 1 GGGAGAACCG TTCGCGGAGG AAAGGCGAAC TAGTGTTGGG ATGGCCACCA ACTGGGGGAG 61 CCTCTTGCAG GATAAACAGC AGCTAGAGGA GCTGGCACGG CAGGCCGTGG ACCGGGCCCT 121 GGCTGAGGGA GTATTGCTGA GGACCTCACA GGAGCCCACT TCCTCGGAGG TGGTGAGCTA 181 TGCCCCATTC ACGCTCTTCC CCTCACTGGT CCCCAGTGCC CTGCTGGAGC AAGCCTATGC 241 TGTGCAGATG GACTTCAACC TGCTAGTGGA TGCTGTCAGC CAGAACGCTG CCTTCCTGGA 301 GCAAACTCTT TCCAGCACCA TCAAACAGGA TGACTTTACC GCTCGTCTCT TTGACATCCA 361 CAAGCAAGTC CTAAAAGAGG GCATTGCCCA GACTGTGTTC CTGGGCCTGA ATCGCTCAGA 421 CTACATGTTC CAGCGCAGCG CAGATGGCTC CCCAGCCCTG AAACAGATCG AAATCAACAC 481 CATCTCTGCC AGCTTTGGGG GCCTGGCCTC CCGGACCCCA GCTGTGCACC GACATGTTCT 541 CAGTGTCCTG AGTAAGACCA AAGAAGCTGG CAAGATCCTC TCTAATAATC CCAGCAAGGG 601 ACTGGCCCTG GGAATTGCCA AAGCCTGGGA GCTCTACGGC TCACCCAATG CTCTGGTGCT 661 ACTGATTGCT CAAGAGAAGG AAAGAAACAT ATTTGACCAG CGTGCCATAG AGAATGAGCT 721 ACTGGCCAGG AACATCCATG TGATCCGACG AACATTTGAA GATATCTCTG AAAAGGGGTC 781 TCTGGACCAA GACCGAAGGC TGTTTGTGGA TGGCCAGGAA ATTGCTGTGG TTTACTTCCG 841 GGATGGCTAC ATGCCTCGTC AGTACAGTCT ACAGAATTGG GAAGCACGTC TACTGCTGGA 901 GAGGTCACAT GCTGCCAAGT GCCCAGACAT TGCCACCCAG CTGGCTGGGA CTAAGAAGGT 961 GCAGCAGGAG CTAAGCAGGC CGGGCATGCT GGAGATGTTG CTCCCTGGCC AGCCTGAGGC 1021 TGTGGCCCGC CTCCGCGCCA CCTTTGCTGG CCTCTACTCA CTGGATGTGG GTGAAGAAGG 1081 GGACCAGGCC ATCGCCGAGG CCCTTGCTGC CCCTAGCCGG TTTGTGCTAA AGCCCCAGAG 1141 AGAGGGTGGA GGTAACAACC TATATGGGGA GGAAATGGTA CAGGCCCTGA AACAGCTGAA 1201 GCACACTGAG GAGAGGGCCT CCTACATCCT CATGGAGAAG ATCGAACCTG AGCCTTTTGA 1261 GAATTGCCTG CTACGGCCTG GCAGCCCTGC CCGAGTGGTC CAGTGCATTT CAGAGCTGGG 1321 CATCTTTGGG GTCTATGTCA GGCAGGAAAA GACACTCGTG ATGAACAAGC ACGTGGGGCA 1381 TCTACTTCGA ACCAAAGCCA TCGAGCATGC AGATGCTGGT GTGGCACCGG GAGTGGCAGT 1441 CCTGGACAAC CCATACCCTG TGTGAGGGCA CAACCAGGCC ACGGGACCTT CTATCCTCTG 1501 TATTTGTCAT TCCTCTCCTA GCCCTCCTGA GGGGTATCCT CCTAAAGACC TCCAAAGTTT 1561 TTATGGAAGG GTAAATACTG CTACCTTCCC CCAGCTTTCC ATCTGACGAC CAGAAAACTT 1621 GTGTCTCCCT TACATGACAT CTAGACGCCC CCAAATCCTT CAGATGTGGG TATAGCTCAG 1681 GCTAAGCTGC TCTGAGGTAA AGGTCCATGA ACCCTGCCCC ACTCCTGTCA GCCCCTCATC 1741 AGCCTTTTCA CCAGGTTCCA GTCCCTGACT TGGGATAGCA CTCAGTGCTA CCACCAGGGC 1801 GAGTGGAGGG GCATAGCCTT TCCCTAATTC TGCCTTAAAT AAAACTGCAT TGCTGT GENBANK ID: AF035429.1 DNA LINEAR DEFINITION HOMO SAPIENS CYTOCHEOME OXIDASE SUBUNIT I (001) AND SUBUNIT II (CCII) PSEUDOGENES, COMPLETE SEQUENCE. VERSION AF035429.1 GI:2665724 1 AATATGAAAA TCACCTCGGA GCTGGTAAAA AGAGGCTTAA CCCCTGTCTT TAGATTTACA 61 GTCCAATGCT TCACTCAGCC ATTTTACCTC ACCCCCACTG ATGTTCGCCG ACCGTTGACT 121 ATTCTCTACA AACCACAAAG ACATTGGAAC ACTATACCTA TTATTCGGCG CATGAGCTGG 181 AGTCCTACGC ACAGCTCTAA GCCTCCTTAT TCGAGCCGAA CTGGGCCAGC CAGGCAACCT 241 TCTAGGTAAC GACCACATCT ACAACGTTAT CGTCACAGCC CATGCATTTG TAATAATCTT 301 CTTCATAGTA ATACCCATCA TAATCGGAGG CTTTGGCAAC TGACTAGTTC CCCTAATAAT 361 CGGTCCCCCC GATATGGCGT TTCCCCGCAT AAACAACATA AGCTTCTCAC TCTTACCCCC 421 CTCTCTCCTA CTCCTGCTTG CATCTCCTAT AGTGGAGGCC GGCGCAGGAA CAGGTTGAAC 481 AGTCTACCCT CCCTTGGCAG GGAACTACTC CCACCCTGGA GGCTGCGTAG ACCTAACCAT 541 CTTCTCCTTA CACCTAGCAG GTATCTCCTC TATCTTAGGA GCCATCAATT TCATCACAAC 601 AATTATTAAT ATAAAACCCC CTGCCATAAC CCAATACCAA ACGCCCCTTT TCGTCTGATC 661 CGTCCTAATC ACAGCAGTCT TACTTCTCCT ATCTCTCCCA GTCCTAGCCG CTGGCATCAC 721 TATACTACTA ACAGACCGTA ACCTCAACAC CACCTTCTTC GACCCAGCCG GAGGAGGAGA 781 CCCCATTCTA TACCAACACC TATTCTGATT TTTCGGTCAC CCTGAAGTTT ATATTGTGAT 841 CCTACCAGGC TTCGGAATAA TCTCCCATAT TGTAACTTAC TACTCCGGAA AAAAAGAACC 801 ATTTGGATAC ATAGGTATGG TCTGAGCTAT GATATCAATT GGCTTCCTAG GGTTTATCGT 961 GTGAGCACAC CATATATTTA CAGTAGGAAT AGACGTAGAC ACACGAGCAT ATTTCACCTC 1021 CGCTACCATA ATCATCGCTA TCCCCACCGG CGTCAAAGTA TTTAGCTGAC TCGCCACACT 1081 CCACGGAAGC AATATGAAAT GATCTGCTGC AGTGCTCTGA GCCCTAGGAT TTATTTTTCT 1141 TTTGACCGTA GGTGGGCTGA CTGGCATTGT ATTAGCAAAC TCATCACTAG ACATCGTACT 1201 ACACGACACG TACTACGTTG TAGCCCACTT CCACTATGTC CTATCAATAG GAGCTGTATT 1261 TGCCATCATA GGAGGCTTCA TTCACTGATT TCCCCTATTC TCAGGCTACA CCCTAGACCA 1321 AACCTACGCC AAAATCCATT TCGCTATCAT ATTCATCGGC GTAAATCTAA CTTTCTTCCC 1381 ACAACACTTT CTCGGCCTAT CCGGAATGCC CCGACGTTAC TCGGACTATC CCGATGCATA 1441 CACCACATGA AATATCCTAT CATCTGTAGG CTCATTCATT TCTCTAACAG CAGTAATATT 1501 AATAATTTTC ATAATTTGAG AAGCCTTCGC TTCGAAGCGA AAAGTCCTAA TAGTAGAAGA 1561 ACCCTCCATA AACCTGGAGT GACTATATGG ATGCCCCCCA CGCTACCACA CATTCGAAGA 1621 ACCCGTATAC ATAAAATCTA GACAAAAAAG GAAGGAATCG AACCCCCCAA AGCTGGTTTC 1681 AAGCCAACCC CATGGCCTCC ATGACTTTTT CAAAAAGATA TTAGAAAAAC CATTTCATAA 1741 CTTTGTCAAA GTTAAATTAT AGGCTAAATC CTATATATCT TAATGGCACA TGCAGCGCAA 1801 GTAGGTCTAC AAAACGCTAC TTCCCCTATC ATAGAAGAGC TTATCATCTT TCATGATCAC 1861 GCCCTCATAA TCATTTTCCT TATCTGCTTC CTAGTCCTGT ACGCCCTTTT CCTAACACTC 1921 ACAACAAAAC TAACTAATAC TAACATCTCA GACGCTCAGG AAATAGAAAC CGTCTGAACT 1981 ATCCTGCCCG CCATCATCCT AGTCCTTATC GGGCTGCCAT CCCTACGCAT CCTTTACATA 2041 ACAGACGAGG TCAACGATCC CTCCTTTACC ATCAAATCAA TTGGCCATCA ATGGTACTGA 2101 ACCTACGAAT ACACGGACTA CGGCGGACTA ATCTTCAACT CCTACATACT TCCCCCATTA 2161 TTCCTAGAAC CAGGCGACCT GCGACTCCTT GACGTTGACA ATCGAGTAGT ACTCCCGGTT 2221 GAAGCCCCCA TTCGTATAAT AATTACATCA CAAGACGTCT TACACTCATG AGCTGTCCCC 2281 ACATTAGGCT TAAAAACAGA TGCAATTCCC GGACGTCTAA ACCAAACCAC TTTCACTGCT 2341 ACACGACCAG GGGTATACTA CGGCCAATGC TCTGAAATCT GTGGAGCAAA CCAGTTTTAT 2401 GCCCATCGTC CTAGAATTAA TTCCCCTAAA AATCTTTGAA ATAGGGCCTG TATTTACCCT 2461 ATAGCACCCC CTCTACCCCC TCTAGAGCCC ACTGTAAAGC TAACTTAGCA TTAACCTTTT 2521 AAGTTAAAGA TTAAGAGAAC CAACACCTCT TTACAGTGAA ATGCCCCAAC TAAATACTA GENBANK ID: NM_024409.1 DEFINITION HOMO SAPIENS NATRIURETIC PEPTIDE PRECURSOR C (NPPC), MRNA. VERSION NM_024409.1 GI:13249345 CDS 1..381 /CODON_START=1 1 ATGCATCTCT CCCAGCTGCT GGCCTGCGCC CTGCTGCTCA CGCTGCTCTC CCTCCGGCCC 61 TCCGAAGCCA AGCCCGGGGC GCCGCCGAAG GTCCCGCGAA CCCCGCCGGC AGAGGAGCTG 121 GCCGAGCCGC AGGCTGCGGG CGGCGGTCAG AAGAAGGGCG ACAAGGCTCC CGGGGGCGGG 181 GGCGCCAATC TCAAGGGCGA CCGGTCGCGA CTGCTCCGGG ACCTGCGCGT GGACACCAAG 241 TCGCGGGCAG CGTGGGCTCG CCTTCTGCAA GACCACCGCA ACGCGCGCAA ATACAARGGA 301 GCCAACAAGA AGGGCTTGTC CAAGGGCTGC TTCGGCCTCA AGCTGGACCG AATCGGCTCC 361 ATGAGCGGCC TGGGATGTTA G GENBANK ID: M37763.1 DNA LINEAR DEFINITION HUMAN NEUROTROFHIN-3 (NT-3) GENE, COMPLETE CDS. VERSION M37763.1 GI:189300 CDS 76..849 /CODON_START=1 GENE 76..849 MAT PEPTIDE 130..846 1 TAACACAGAC TCAGCTGCCA GAGCCTGCTC TTAACACCTG TGTTTCCTTT TCAGATCTTA 61 CAGGTGAACA AGGTGATGTC CATCTTGTTT TATGTGATAT TTCTCGCTTA TCTCCGTGGC 121 ATCCAAGGTA ACAACATGGA TCAAAGGAGT TTGCCAGAAG ACTCGCTCAA TTCCCTCATT 181 ATTAAGCTGA TGCAGGCAGA TATTTTGAAA AACAAGCTCT CCAAGCAGAT GGTGGACGTT 241 AAGGAAAATT ACCAGAGCAC CCTGCCCAAA GCTGAGGCTC CCCGAGAGCC GGAGCGGGGA 301 GGGCCCGCCA AGTCAGCATT CCAGCCGGTG ATTGCAATGG ACACCGAACT GCTGCGACAA 361 CAGAGACGCT ACAACTCACC GCGGGTCCTG CTGAGCGACA GCACCCCCTT GGAGCCCCCG 421 CCCTTGTATC TCATGGAGGA TTACGTGGGC AGCCCCGTGG TGGCGAACAG ARCATCACGG 481 CGGAAACGGT ACGCGGAGCA TAAGAGTCAC CGAGGGGAGT ACTCGGTATG TGACAGTGAG 541 AGTCTGTGGG TGACCGACAA GTCATCGGCC ATCGACATTC GGGGACACCA GGTCACGGTG 601 CTGGGGGAGA TCAAAACGGG CAACTCTCCC GTCAAACAAT ATTTTTATGA AACGCGATGT 661 AAGGAAGCCA GGCCGGTCAA AAACGGTTGC AGGGGTATTG ATGATAAACA CTGGAACTCT 721 CAGTGCAAAA CATCCCAAAC CTACGTCCGA GCACTGACTT CAGAGAACAA TAAACTCGTG 781 GGCTGGCGGT GGATACGGAT AGACACGTCC TGTGTGTGTG CCTTGTCGAG AAAAATCGGA 841 AGAACATGAA TTGGCATCTC TCCCCATATA TAAATTATTA CTTTAAATTA TATGATATGC 901 ATGTAGCATA TAAATGTTTA TATTGTTTTT ATATATTATA AGTTGACCTT TATTTATTAA 961 ACTTCAGCAA CCCTACAGTA TATAAGCTTT TTTCTCAATA AAATCAGTGT GCTTGCCTTC GENBANK ID: NM_000932.1 DEFINITION HOMO SAPIENS PHOSPHOLIPASE C, BETA 3 (PHOSPHATIDYLINOSITOL-SPECIFIC) (PLCB3), MRNA. VERSION NM_000932.1 GI:11386138 CDS 1..3705 1 ATGGCGGGCG CCCAGCCCGG CGTCCACGCG CTGCAGTTGG AGCCGCCCAC CGTGGTGGAG 61 ACCCTGCGGC GCGGGAGTAA GTTCATCAAA TGGGACGAGG AGACCTCCAG TCGGAACCTG 121 GTGACCCTGC GTGTGGACCC CAATGGCTTC TTCTTGTACT GGACGGGCCC CAACATGGAG 181 GTGGACACAC TGGACATCAG TTCCATCAGG GACACACGGA CAGGCCGGTA CGCCCGCCTG 241 CCCAAGGACC CCAAGATCCG GGAAGTTCTG GGCTTTGGGG GTCCCGATGC CCGGCTGGAG 301 GAGAAGCTGA TGACGGTGGT GTCTGGGCCA GACCCGGTGA ACACAGTGTT CTTGAACTTC 361 ATGGCCGTGC AGGATGACAC AGCCAAGGTC TGGTCTGAGG AGCTATTCAA GCTGGCTATG 421 AACATCCTGG CTCAGAACGC CTCCCGGAAC ACCTTCCTGC GCAAAGCATA CACGAAGCTG 481 AAGCTGCAGG TGAACCAGGA TGGTCGGATC CCCGTCAAGA ACATCCTGAA GATGTTCTCA 541 GCAGACAAGA AGCGGGTGGA GACTGCGCTG GAATCCTGTG GCCTCAAATT CAACCGGAGT 601 GAGTCCATCC GGCCTGATGA GTTTTCCTTG GAAATCTTTG AGCGGTTCCT GAACAAGCTG 661 TGTCTGCGGC CGGACATTGA CAAGATCCTG CTGGAGATAG GCGCCAAGGG CAAGCCATAC 721 CTGACGCTGG AGCAGCTCAT GGACTTCATC AACCAGAAGC AACGCGACCC GAGACTCAAC 781 GAAGTGCTGT ACCCGCCCCT GCGGCCCTCC CAGGCCCGGC TGCTCATCGA AAAGTATGAG 841 CCCAACCAGC AGTTTCTGGA GCGAGACCAG ATGTCCATGG AGGGCTTTAG CCGCTACCTG 901 GGAGGCGAGG AGAATGGCAT CCTGCCCCTG GAAGCCCTGG ATCTGAGCAC GGACATGACC 961 CAGCCACTGA GTGCCTACTT CATCAACTCC TCGCATAACA CCTATCTCAC TGCGGGGCAG 1021 CTGGCTGGGA CCTCGTCGGT GGAGATGTAC CGCCAGGCAC TACTATGGGG CTGCCGCTGC 1081 GTGGAGCTGG ACGTGTGGAA GGGACGGCCG CCTGAGGAGG AACCCTTCAT TACCCACGGC 1141 TTCACCATGA CCACAGAGGT GCCTCTGCGC GACGTGCTGG AGGCCATTGC CGAGACTGCC 1201 TTCAAGACCT CGCCCTACCC CGTCATCCTC TCCTTCGAGA ACCATGTGGA CTCGGCAAAG 1261 CAACAGGCAA AGATGGCTGA GTACTGCCGC TCCATCTTTG GAGACGCGCT ACTCATCGAG 1321 CCTCTGGACA AGTACCCGCT GGCCCCAGGC GTTCCCCTGC CCAGCCCCCA GGACCTGATG 1381 GGCCGTATCC TGGTGAAGAA CAAGAAGCCG CACCGACGCA GCGCAGGTGG CCCAGACAGC 1441 GCCGGGCGCA AGCGGCCCCT GGAGCAGAGC AATTCTGCCC TGAGCGAGAG CTCCGCGGCC 1501 ACCGAGCCCT CCTCCCCGCA GCTGCGGTCT CCCAGCTCTG ACAGCTGCCC AGGCCTGAGC 1561 AATGGGGAGG AGGTAGGCCT TCACAAGCCC ACCCTGCAGC CTCAGAAGTC TCTCGGTGAC 1621 GAGCGCCTGA ACCGAGGCCC CTATGTTCTT GGACCTGCTG ACCGTGAGGA TGAGGAGGAA 1681 GATGAGCAAG AGCAGGAACA GACAGACCCC AAAAAGCCAA CTACAGATGA GGGGACAGCC 1741 AGCAGCGAGG TGAATGCCAC TGAGGAGATG TCCACGCTTG TCAACTACAT CGAACCTGTC 1801 AAGTTCAAGT CCTTTGAGGC TGCTCGAAAG AGGAACAAAT GCTTCGAGAT GTCGTCCTTT 1861 GTGGAGACCA AGGCCATGGA GCAACTGACC AAGAGCCCCA TGGAGTTTGT GGAATACAAC 1921 AAGCAGCAGC TCAGCCGCAT CTACCCCAAG GGCACCCGCG TGGACTCCTC CAACTACATG 1981 CCCCAGCTCT TCTGGAACGT AGGGTGCCAG CTTGTTGCGC TCAACTTCCA GACCCTCGAT 2041 GTGGCGATGC AGCTCAACGC GGGCGTTTTT GAGTACAACG GGCGCAGCGG GTACCTGCTC 2101 AAGCCGGAGT TCATGCGGCG GCCGGACAAG TCCTTCGACC CCTTCACTGA GGTCATCGTG 2161 GATGGCATCG TGGCCAATGC CTTGCGGGTC AAGGTGATCT CAGGGCAGTT CCTGTCCGAC 2221 AGGAAGGTGG GCATCTACGT GGAGGTGGAC ATGTTTGGCC TCCCTGTTGA TACGCGGCGC 2281 AAGTACCGCA CCCGGACCTC TCAGGGGAAC TCGTTCAACC CCGTGTGGGA CGAAGAGCCC 2341 TTCGACTTCC CCAAGGTGGT GCTGCCCACG CTGGCTTCAC TTCGCATTGC AGCCTTTGAG 2401 GAGGGGGGTA AATTCGTAGG GCACCGGATC CTGCCTGTCT CTGCCATCCG CTCCGGATAC 2461 CACTACGTGT GCCTGCGGAA CGAGGCCAAC CAACCGCTGT GCCTGCCGGC CCTGCTCATC 2521 TACACCGAAG CCTCGGACTA CATTCCTGAC GACCACCAGG ACTATGCGGA GGCCCTGATC 2581 AACCCCATTA AGCACGTCAG CCTGATGGAC CAGAGGGCCC GGCAGCTGGC CGCCCTCATT 2641 GGGGAGAGTG AGGGTGAGGC TGGCCAAGAG ACGTGCCAGG ACACCCAGTC TCAGCAGCTG 2701 GGGTCTCAGC CGTCCTCAAA CCCCACCCCC AGCCCACTGG ATGCCTCCCC CCGCCGGCCC 2761 CCTGGCCCCA CCACCTCCCC TGCCAGCACC TCCCTCAGCA GCCCAGGGCA GCGTGATGAT 2821 CTCATCGCCA GCATCCTCTC AGAGGTGGCC CCCACCCCGC TGGATGAGCT CCGAGGTCAC 2881 AAGGCTCTGG TCAAGCTCCG GAGCCGGCAA GAGCGAGACC TGCGGGAGCT GCGCAAGAAG 2941 CATGAGGGGA AGGCAGTCAC CCTCACCCGC CGCCTGCTGG ATGGCCTGGC TCAGGCACAG 3001 GCTGAGGGCA GGTGCCGGCT GCGGCCAGGT GCCCTAGGTG GGGCCGCTGA TGTGGAGGAC 3061 ACGAAGGAGG GGGAGGACGA GGCAAAGCGG TATCAGGAGT TCCAGAACAG ACAGGTGCAG 3121 AGCCTGCTGG AGCTGCGGGA GGCCCAGGTG GACGCAGAGG CCCAGCGGAG GCTGGAACAC 3181 CTGAGACAGG CTCTGCAGCG GCTCAGGGAG GTCGTCCTTG ATGCAAACAC AACTCAGTTC 3241 AAGAGGCTGA AAGAGATGAA CGAGAGGGAG AAGAAGGAGC TGCAGAAGAT CCTGGACAGA 3301 AAGCGCCATA ACAGCATCTC GGAGGCCAAG ATGAGGGACA AGCATAAGAA GGAGGCGGAA 3361 CTGACGGAGA TTAACCGTCG GCACATCACT GAGTCAGTCA ACTCCATCCG TCGGCTGGAG 3421 GAGGCCCAGA AGCAGCGGCA TGACCGTCTT GTGGCTGGGC AGCAGCAGGT CCTGCAACAG 3481 CTGGCAGAAG AGGAGCCCAA GCTGCTGGCC CAGCTGGCCC AGGAGTGTCA GGAGCAGCGG 3541 GCGAGGCTCC CCCAGGAGAT CCGCCGGAGC CTGCTGGGCG AGATGCCGGA GGGGCTGGGG 3601 GACGGGCCTC TGGTGGCCTG TGCCAGCAAC GGTCACGCAC CCGGGAGCAG CGGGCACCTG 3661 TCGGGCGCTG ACTCGGAGAG CCAGGAGGAG AACACGCAGC TCTGA GENBANK ID: D13119.1 DEFINITION HOMO SAPIENS P2 MRNA FOR ATP SYNTHASE SUBUNIT C, COMPLETE CDS. VERSION D13119.1 GI:285909 CDS 31..456 /CODON_START=1 1 TCTCCTGCCA CAGCTCCTCA CCCCCTGAAA ATGTTCGCCT GCTCCAAGTT TGTCTCCACT 61 CCCTCCTTGG TCAAGAGCAC CTCACAGCTG CTGAGCCGTC CGCTATCTGC AGTGGTGCTG 121 AAACGACCGG AGATACTGAC AGATGAGAGC CTCAGCAGCT TGGCAGTCTC ATGTCCCCTT 181 ACCTCACTTG TCTCTAGCCG CAGCTTCCAA ACCAGCGCCA TTTCAAGGGA CATCGACACA 241 GCAGCCAAGT TCATTGGAGC TGGGGCTGCC ACAGTTGGGG TGGCTGGTTC TGGGGCTGGG 301 ATTGGAACTG TGTTTGGGAG CCTCATCATT GGTTATGCCA GGAACCCTTC TCTGAAGCAA 361 CAGCTCTTCT CCTACGCCAT TCTGGGCTTT GCCCTCTCGG AGGCCATGGG GCTCTTTTGT 421 CTGATGGTAG CCTTTCTCAT CCTCTTTGCC ATGTGAAGGA GCCGTCTCCA CCTCCCATAG 481 TTCTCCCGCG TCTGGTTGGC CCCGTGTGTT CCTTTTCCTA TACCTCCCCA GGCAGCCTGG 541 GGAACGTGGT TGGCTCAGGG TTTGACAGAG AAAAGACAAA TAAATACTGT ATTAATAAG GENBANK ID: NM_004530.1 DEFINITION HOMO SAPIENS MATRIX METALLOPROTEINASE 2 (GELATINASE A, 72KD GELATINASE, 72KD TYPE IV COLLAGENASE) (MMP2), MRNA. VERSION NM_004530.1 GI:11342665 CDS 290..2272 /CODON_START=1 1 TGTTTCCGCT GCATCCAGAC TTCCTCAGGC GGTGGCTGGA GGCTGCGCAT CTGGGGCTTT 61 AAACATACAA AGCGATTGCC AGGACCTGCG GCGGCGGCGG CGGCGGCGGG GGCTGGGGCG 121 CGGGGGCCGG ACCATGAGCC GCTCAGCCGG GCAAACCCCA GGCCACCGAG CCAGCGGACC 181 CTCGGAGCGC AGCCCTGCGC CGCGGACCAG GCTCCAACCA GGCGGCGAGG CGGCCACACG 241 CACCGAGCCA GCGACCCCCG GGCGACGCGC GGGGCCAGGG AGCGCTACGA TGGAGGCGCT 301 AATGGCCCGG GGCGCGCTCA CGCGTCCCCT GAGGGCGCTC TGTCTCCTGG GCTGCCTGCT 361 GAGCCACGCC GCCGCCGCGC CGTCGCCCAT CATCAAGTTC CCCGGCGATG TCGCCCCCAA 421 AACGGACAAA GAGTTGGCAG TGCAATACCT GAACACCTTC TATGGCTGCC CCAAGGAGAG 481 CTGCAACCTG TTTGTGCTGA AGGACACACT AAAGAAGATG CAGAAGTTCT TTGGACTGCC 541 GCAGACAGCT GATCTTGACC AGAATACCAT CGAGACCATG CGGAAGCCAC GCTGCGGCAA 601 CCCAGATGTG GCCAACTACA ACTTCTTCCC TCGCAAGCCC AAGTGGGACA AGAACCAGAT 661 CACATACAGG ATCATTGGCT ACACACCTGA TCTGGACCCA GAGACAGTGG ATGATGCCTT 721 TGCTCGTGCC TTCCAAGTCT GGAGCGATGT GACCCCACTG CGGTTTTCTC GAATCCATGA 781 TGGAGAGGCA GACATCATGA TCAACTTTCG CCGCTGGGAG CATGGCGATG GATACCCCTT 841 TGACGGTAAG GACGGACTCC TGGCTCATCC CTTCGCCCCA GGCACTGGTG TTGGGGGAGA 901 CTCCCATTTT GATGACGATG AGCTATGGAC CTTGGGAGAA GGCCAAGTGG TCCGTGTGAA 961 GTATGGCAAC GCCGATGGGG AGTACTGCAA GTTCCCCTTC TTGTTCAATG GCAAGGAGTA 1021 CAACAGCTGC ACTGATACTG GCCGCAGCGA TGGCTTCCTC TGGTCCTCCA CCACCTACAA 1081 CTTTGAGAAG GATGGCAAGT ACGGCTTCTG TCCCCATGAA GCCCTGTTCA CCATGGGCGG 1141 CAACGCTGAA GGACAGCCCT GCAAGTTTCC ATTCCGCTTC CAGGGCACAT CCTATGACAG 1201 CTGCACCACT GAGGGCCGCA CCGATGGCTA CCGCTGGTGC GGCACCACTG AGGACTACGA 1261 CCGCGACAAG AAGTATGGCT TCTGCCCTGA GACCGCCATG TCCACTGTTG GTGGGAACTC 1321 AGAAGGTGCC CCCTGTGTCT TCCCCTTCAC TTTCCTGGGC AACAAATATG AGAGCTGCAC 1381 CAGCGCCGGC CGCAGTGACG GAAAGATGTG GTGTGCGACC ACAGCCAACT ACGATGACGA 1441 CCGCAAGTGG GGCTTCTGCC CTGACCAAGG GTACAGCCTG TTCCTCGTGG CAGCCCACGA 1501 GTTTGGCCAC GCCATGGGGC TGCAGCACTC CCAAGACCCT GGGGCCCTGA TGGCACCCAT 1561 TTACACCTAC ACCAAGAACT TCCGTCTGTC CCAGGATGAC ATCAAGGGCA TTCAGGAGCT 1621 CTATGGGGCC TCTCCTGACA TTGACCTTGG CACCGGCCCC ACCCCCACAC TGGGCCCTGT 1681 CACTCCTGAG ATCTGCAAAC AGGACATTGT ATTTGATGGC ATCGCTCAGA TCCGTGGTGA 1741 GATCTTCTTC TTCAAGGACC GGTTCATTTG GCGGACTGTG ACGCCACGTG ACAAGCCCAT 1801 GGGGCCCCTG CTGGTGGCCA CATTCTGGCC TGAGCTCCCG GAAAAGATTG ATGCGGTATA 1861 CGAGGCCCCA CAGGAGGAGA AGGCTGTGTT CTTTGCAGGG AATGAATACT GGATCTACTC 1921 AGCCAGCACC CTGGAGCGAG GGTACCCCAA GCCACTGACC AGCCTGGGAC TGCCCCCTGA 1981 TGTCCAGCGA GTGGATGCCG CCTTTAACTG GAGCAAAAAC AAGAAGACAT ACATCTTTGC 2041 TGGAGACAAA TTCTGGAGAT ACAATGAGGT GAAGAAGAAA ATGGATCCTG GCTTTCCCAA 2101 GCTCATCGCA GATGCCTGGA ATGCCATCCC CGATAACCTG GATGCCGTCG TGGACCTGCA 2161 GGGCGGCGGT CACAGCTACT TCTTCAAGGG TGCCTATTAC CTGAAGCTGG AGAACCAAAG 2221 TCTGAAGAGC GTGAAGTTTG GAAGCATCAA ATCCGACTGG CTAGGCTGCT GAGCTGGCCC 2281 TGGCTCCCAC AGGCCCTTCC TCTCCACTGC CTTCGATACA CCGGGCCTGG AGAACTAGAG 2341 AAGGACCCGG AGGGGCCTGG CAGCCGTGCC TTCAGCTCTA CAGCTAATCA GCATTCTCAC 2401 TCCTACCTGG TAATTTAAGA TTCCAGAGAG TGGCTCCTCC CGGTGCCCAA GAATAGATGC 2461 TGACTGTACT CCTCCCAGGC GCCCCTTCCC CCTCCAATCC CACCAACCCT CAGAGCCACC 2521 CCTAAAGAGA TCCTTTGATA TTTTCAACGC AGCCCTGCTT TGGGCTGCCC TGGTGCTGCC 2581 ACACTTCAGG CTCTTCTCCT TTCACAACCT TCTGTGGCTC ACAGAACCCT TGGAGCCAAT 2641 GGAGACTGTC TCAAGAGGGC ACTGGTGGCC CGACAGCCTG GCACAGGGCA GTGGGACAGG 2701 GCATGGCCAG GTGGCCACTC CAGACCCCTG GCTTTTCACT GCTGGCTGCC TTAGAACCTT 2761 TCTTACATTA GCAGTTTGCT TTGTATGCAC TTTGTTTTTT TCTTTGGGTC TTGTTTTTTT 2821 TTTCCACTTA GAAATTGCAT TTCCTGACAG AAGGACTCAG GTTGTCTGAA GTCACTGCAC 2881 AGTGCATCTC AGCCCACATA GTGATGGTTC CCCTGTTCAC TCTACTTAGC ATGTCCCTAC 2941 CGAGTCTCTT CTCCACTGGA TGGAGGAAAA CCAAGCCGTG GCTTCCCGCT CAGCCCTCCC 3001 TGCCCCTCCC TTCAACCATT CCCCATGGGA AATGTCAACA AGTATGAATA AAGACACCTA 3061 CTGAGTGGC GENBANK ID: NN_000852.2 DEFINITION HOMO SAPIENS GLUTATHIONE S-TRANSFERASE PI (GSTP1), MRNA. VERSION NM_000852.2 GI:6552334 CDS 30..662 1 GGAGTTTCGC CGCCGCAGTC TTCGCCACCA TGCCGCCCTA CACCGTGGTC TATTTCCCAG 61 TTCGAGGCCG CTGCGCGGCC CTGCGCATGC TGCTGGCAGA TCAGGGCCAG AGCTGGAAGG 121 AGGAGGTGGT GACCGTGGAG ACGTGGCAGG AGGGCTCACT CAAAGCCTCC TGCCTATACG 181 GGCAGCTCCC CAAGTTCCAG GACGGAGACC TCACCCTGTA CCAGTCCAAT ACCATCCTGC 241 GTCACCTGGG CCGCACCCTT GGGCTCTATG GGAAGGACCA GCAGGAGGCA GCCCTGGTGG 301 ACATGGTGAA TGACGCCGTG GAGGACCTCC GCTGCAAATA CATCTCCCTC ATCTACACCA 361 ACTATGAGGC GGGCAAGGAT GACTATGTGA AGGCACTGCC CGGGCAACTG AAGCCTTTTG 421 AGACCCTGCT GTCCCAGAAC CAGGGAGGCA AGACCTTCAT TGTGGGAGAC CAGATCTCCT 481 TCGCTGACTA CAAGCTGCTG GACTTGCTGC TGATCCATGA GGTCCTAGCC CCTGGCTGCC 541 TGGATGCGTT CCCCCTGCTC TCAGCATATG TGGGCCGCCT CACCGCCCGG CCCAAGCTCA 601 AGGCCTTCCT GGCCTCCCCT CAGTACGTGA ACCTCCCCAT CAATGGCAAC GGGAAACAGT 661 GAGGGTTGGG GGGACTCTGA GCGGGAGGCA GAGTTTGCCT TCCTTTCTCC AGGACCAATA 721 AAATTTCTAA GAGAGCT GENBANK ID: XM_016524.4 DEFINITION HOMO SAPIENS CREATINE KINASE, MITOCHONDRIAL 1 (UBIQUITOUS) (CENT1) ,MRNA. VERSION XM_016524.4 GI:17477504 CDS 358..1704 /CODON_START=1 1 CGCGCGAGTC TCAGGTCCCG CTAATTACCT GGCGGGTGCT GCCCACCCCT GCCCTCGCGC 61 ACCTACCGCG GTGGCAGGCG GGAAGGCGGG GCCTGGGGGA GCCCCACCCC TGGAGACTGC 121 GGCTGGGGCC TCCCTCTCCT CCGCCCGCCC GCCTGCCACT AGCTCATTGC GCCTCTCCTG 181 CAGTCTGATT GGCACCGGCT CCCATTCCGG CTCCAGCCTC CAATCCGACC CCCATTTCGG 241 CTGCAGCCTC GGACCTAGCT CCGGCCCTCG GTCTATCCGG TTGCATCCTC CCTCCCTGTT 301 CCGGATCTTA TCTTGCGCCA GCGCCTACTC CAGGATCCCG TACCGAGACG TCAAGCCATG 361 GCTGGTCCCT TCTCCCGTCT GCTGTCCGCC CGCCGGGGAC TCAGGCTCCT GGCTTTGGCC 421 GGAGCGGGGT CTCTAGCCGC TGGGTTTCTG CTCCGACCGG AACCTGTACG AGCTGCCAGT 481 GAACGACGGA GGCTGTATCC CCCGAGCCAG ACATGGCCAA CTGGACAGCT CCCAGGTAAC 541 TGCACTAGGT CTAGGCGTCT GTGCCCTCCC TCCATGGTTA CTGGGTACCC CCTCCCCAGC 601 GCTGAGTACC CAGACCTCCG AAAGCACAAC AACTGCATGG CCAGTCACCT GACCCCAGCA 661 GTCTATGCAC GGCTCTGCGA CAAGACCACA CCCACTGGTT GGACGCTAGA TCAGTGTATC 721 CAGACTGGCG TGGACAACCC TGGCCACCCC TTCATCAAGA CTGTGGGCAT GGTGGCTGGA 781 GATGAGGAGA CCTATGAGGT ATTTGCTGAC CTGTTTGACC CTGTGATCCA AGAGGGACAC 841 AATGGATATG ACCCCCGGAC AATGAAGCAC ACCACGGATC TAGATGCCAG TAAAATCCGT 901 TCTGGCTACT TTGATGAGAG GTATGTATTG TCCTCTAGAG TCAGAACTGG CCGAAGCATC 961 CGAGGACTCA GTCTGCCTCC AGCTTGCACT CGAGCAGAGC GACGAGAGGT GGAACGTGTT 1021 GTGGTGGATG CACTGAGTGG CCTGAAGGGT GACCTGGCTG GACGTTACTA TAGGCTCAGT 1081 GAGATGACAG AGGCTGAACA GCAGCAGCTT ATTGATGACC ACTTTCTGTT TGATAAGCCT 1141 GTGTCCCCGT TGCTGACTGC AGCAGGAATG GCTCGAGACT GGCCAGATGC TCGTGGAATT 1201 TGGCACAACA ATGAGAAGAG CTTCCTGATC TGGGTGAATG AGGAGGATCA TACACGGGTG 1261 ATCTCCATGG AGAAGGGTGG TAACATGAAG AGAGTGTTTG AAAGATTCTG CCGAGGCCTC 1321 AAAGAGGTGG AGAGACTTAT CCAAGAACGT GGCTGGGAGT TCATGTGGAA TGAGCGTTTG 1381 GGATACATCT TGACCTGTCC ATCTAACCTG GGCACTGGAC TTCGGGCAGG AGTGCACATC 1441 AAACTGCCCC TGCTAAGCAA AGATAGCCGC TTCCCAAAGA TCCTGGAGAA CCTAAGACTC 1501 CAAAAACGTG GTACTGGAGG AGTGGACACT GCTGCTACAG GCGGTGTCTT TGATATTTCT 1561 AATTTGGACC GACTAGGCAA ATCAGAGGTG GAGCTGGTGC AACTGGTCAT CGATGGAGTA 1621 AACTATTTGA TTGATTGTGA ACGGCGTCTG GAGAGAGGUC AGGATATCCG CATCCCCACA 1681 CCTGTCATCC ACACCAAGCA TTAACTCCCC ATCGCCAGCT GATGACTCAA GATTCCCAGG 1741 AGTTCTGCTC ATTCTAATGA TGGCCCATTC TACTTGCTCT GGACCTGCCC CCGCATCCCC 1801 TGCCTCCATC CTAGTAAAGA CTCCTTGCTA TGCTGC GENBANK ID: NM_001443.1 DEFINITION HOMO SAPIENS FATTY ACID BINDING PROTEIN 1, LIVER (FABP1), MRNA. VERSION NM_001443.1 GI:4557576 CDS 43..426 1 AGAGCCGCAG GTCAGTCGTG AAGAGGGAGC TCTATTGCCA CCATGAGTTT CTCCGGCAAG 61 TACCAACTGC AGAGCCAGGA AAACTTTGAA GCCTTCATGA AGGCAATCGG TCTGCCGGAA 121 GAGCTCATCC AGAAGGGGAA GGATATCAAG GGGGTGTCGG AAATCGTGCA GAATGGGAAG 181 CACTTCAAGT TCACCATCAC CGCTGGGTCC AAAGTGATCC AAAACGAATT CACGGTGGGG 241 GAGGAATGTG AGCTGGAGAC AATGACAGGG GAGAAAGTCA AGACAGTGGT TCAGTTGGAA 301 GGTGACAATA AACTGGTGAC AACTTTCAAA AACATCAAGT CTGTGACCGA ACTCAACGGC 361 GACATAATCA CCAATACCAT GACATTGGGT GACATTGTCT TCAAGAGAAT CAGCAAGAGA 421 ATTTAAACAA GTCTGCATTT CATATTATTT TAGTGTGTAA AATTAATGTA ATAAAGTGAA 481 CTTTGTTTT GENBANK ID: NM_001220.1 DEFINITION HOMO SAPIENS CALCIUMCALNODULINDEPENDENT PROTEIN KINASE (CAN KINASE) II BETA (CZANK2B), MRNA. VERSION NM_001220.1 GI:10835005 CDS 47..1675 1 GCGGCCCGCG TCGACCGAGC GCACGCCCAG CCCCTCCGCC GCCGCCATGG CCACCACGGT 61 GACCTGCACC CGCTTCACCG ACGAGTACCA GCTCTACGAG GATATTGGCA AGGCGGCTTT 121 CTCTGTGGTC CGACGCTGTG TCAAGCTCTG CACCGGCCAT GACTATGCAG CCAAGATCAT 181 CAACACCAAG AAGCTGTCAG CCAGAGATCA CCAGAAGCTG GAGAGACAGG CTCGGATCTG 241 CCGCCTTGTG AAGCATTCCA ACATCGTGCG TCTCCACGAC AGCATCTCCG AGGAGGGCTT 301 CCACTACCTG GTCTTCGATC TGGTCACTGG TGGGGAGCTC TTTGAAGACA TTGTGGCGAG 361 AGAGTACTAC AGCGAGGCTG ATGCCAGTCA CTGTATCCAG CAGATCCTGK AGGCCGTTCT 421 CCATTGTCAC CAAATGGCCG TCCTCCACAG AGACCTCAAG CCGSAGAACC TGCTTCTGGC 481 CAGCAAGTGC AAAGGGGCTG CAGTGAAGCT GGCAGACTTC GGCCTAGCTA TCGAGGTGCA 541 GGGGGACCAG CAGGCATGGT TTGGTTTCGC TGGCACACCA GCCTACCTGT CCCCTGAGGT 601 CCTTCGCAAA GAGGCGTACG GCAAGCCCGT GGACATCTGG GCATGTGGGG TGATCCTGTA 661 CATCCTGCTC GTGGGCTACC CACCCTTCTG GGACGAGGAC CAGCACAAGC TGTACCAGCA 721 GATCAAGGCT GGTGCCTATG ACTTCCCGTC CCCTGAGTGG GACACCGTCA CTCCTGAAGC 781 CAAAAACCTC ATCAACCAGA TGCTGACCAT CAACCCTGCC AAGCGCATCA CAGCCCATGA 841 GGCCCTGAAG CACCCGTGGG TCTGCCAACG CTCCACGGTA GCATCCATGA TGCACAGACA 901 GGAGACTGTG GAGTGTCTGA AAAAGTTCAA TGCCAGGAGA AAGCTCAAGG GAGCCATCCT 961 CACCACCATG CTGGCCACAC GGAATTTCTC AGTGGGCAGA CAGACCACCG CTCCGGCCAC 1021 AATGTCCACC GCGGCCTCCG GCACCACCAT GGGGCTGGTG GAACAAGCCA AGAGTTTACT 1081 CAACAAGAAA GCAGATGGAG TCAAGCCCCA GACGAATAGT ACCAAAAACA GTGCAGCCGC 1141 CACCAGCCCC AAAGGGACGC TTCCTCCTGC CGCCCTGGAG CCTCAAACCA CCGTCATCCA 1201 TAACCCAGTG GACGGGATTA AGGAGTCTTC TGACAGTGCC AATACCACCA TAGAGGATGA 1281 AGACGCTAAA GCCCGGAAGC AGGAGATCAT TAAGACCACG GAGCAGCTCA TCGAGGCCGT 1321 CAACAACGGT GACTTTGAGG CCTACGCGAA AATCTGTGAC CCAGGGCTGA CCTCGTTTGA 1381 GCCTGAAGCA CTGGGCAACC TGGTTGAAGG GATGGACTTC CACAGATTCT ACTTCGAGAA 1441 CCTGCTGGCC AAGAACAGCA AGCCGATCCA CACGACCATC CTGAACCCAC ACGTGCACGT 1501 CATTGGAGAG GATGCCGCCT GCATCGCTTA CATCCGGCTC ACGCAGTACA TTGACGGGCA 1561 GGGCCGGCCC CGCACCAGCC AGTCTGAGGA GACCCGCGTG TGGCACCGCC GCGACGGCAA 1621 GTGGCAGAAC GTGCACTTCC ACTGCTCGGG CGCGCCTGTG GCCCCGCTGC AGTGAAGAGC 1681 TGCGCCCTGG TTTCGCCGGA CAGAGTTGGT GTTTGGAGCC CGACTGCCCT CGGGCACACG 1741 GCCTGCCTGT CGCATGTTTG TGTCTGCCTC GTTCCCTCCC CTGGTTCCTG TGTGTGCAGA 1801 AAAACAAGAC CAGATGTGAT TTGTT GENBANK ID: NM_001677.1 DEFINITION HOMO SAPIENS ATPASE, NA+K+TRANSPORTING, BETA 1 POLYPEPTIDE (ATP1B1), MRNA. VERSION NM_001677.1 GI:4502276 CDS 127..1038 1 GAATTCATGC TAAATTGCTG GAAGGCTGCG TCTCTGCTGT GGTGTCAGTT CCGGATGCCT 61 CATCGCCAGG GGCGCGCCGC AGCCACCCAC CCTCCGGACC GCGGCAGCTG CTGACCCGCC 121 ATCGCCATGG CCCGCGGGAA AGCCAAGGAG GAGGGCAGCT GGAAGAAATT CATCTGGAAC 181 TCAGAGAAGA AGGAGTTTCT GGGCAGGACC GGTGGCAGTT GGTTTAAGAT CCTTCTATTC 241 TACGTAATAT TTTATGGCTG CCTGGCTGGC ATCTTCATCG GAACCATCCA AGTGATGCTG 301 CTCACCATCA GTGAATTTAA GCCCACATAT CAGGACCGAG TGGCCCCGCC AGGATTAACA 361 CAGATTCCTC AGATCCAGAA GACTGAAATT TCCTTTCGTC CTAATGATCC CAAGAGCTAT 421 GAGGCATATG TACTGAACAT AGTTAGGTTC CTGGAAAAGT ACAAAGATTC AGCCCAGAGG 481 GATGACATGA TTTTTGAAGA TTGTGGCGAT GTGCCCAGTG AACCGAAAGA ACGAGGAGAC 541 TTTAATCATG AACGAGGAGA GCGAAAGGTC TGCAGATTCA AGCTTGAATG GCTGGGAAAT 601 TGCTCTGGAT TAAATGATGA AACTTATGGC TACAAAGAGG GCAAACCGTG CATTATTATA 661 AAGCTCAACC GAGTTCTAGG CTTCAAACCT AAGCCTCCCA AGAATGAGTC CTTGGAGACT 721 TACCCAGTGA TGAAGTATAA CCCAAATGTC CTTCCCGTTC AGTGCACTGG CAAGCGAGAT 781 GAAGATAAGG ATAAAGTTGG AAATGTGGAG TATTTTGGAC TGGGCAACTC CCCTGGTTTT 841 CCTCTGCAGT ATTATCCGTA CTATGGCAAA CTCCTGCAGC CCAAATACCT GCAGCCCCTG 901 CTGGCCGTAC AGTTCACCAA TCTTACCATG GACACTGAAA TTCGCATAGA GTGTAAGGCG 961 TACCGTGAGA ACATTGGGTA CAGTGAGAAA GACCGTTTTC AGGGACGTTT TGATGTAAAA 1021 ATTGAAGTTA AGAGCTGATC ACAAGCACAA ATCTTTCCCA CTAGCCATTT AATAAGTTAA 1081 AAAAAGATAC AAAAACAAAA ACCTACTAGT CTTGAACAAA CTGTCATACG TATGGGACCT 1141 ACACTTAATC TATATGCTTT ACACTAGCTT TCTGCATTTA ATAGGTTAGA ATGTAAATTA 1201 AAGTGTAGCA ATAGCAACAA AATATTTATT CTACTGTAAA TGACAAAAGA AAAAGAAAAA 1261 TTGAGCCTTG GGACGTGCCC ATTTTTACTG TAAATTATGA TTCCGTAACT GACCTTGTAG 1321 TAAGCAGTGT TTCTGGCCCC TAAGTATTGC TGCCTTGTGT ATTTTATTTA GTGTACAGTA 1381 CTACAGGTGC ATACTCTGGT CATTTTTCAA GCCATGTTTT ATTGTATCTG TTTTCTACTT 1441 TATGTGAGCA AGGTTTGCTG TCCAAGGTGT AAATATTCAA CGGGAATAAA ACTGGCATGG 1501 TAATTTTTTT TTTTTGTTTG TTTTTTGTTT TTTGGCTCTT TCAAAGGTAA TGGCCCATCG 1561 ATGAGCATTT TTAACATACT CCATAGTCTT TTCCTGTGGT GTTAGGTCTT TATTTTTATT 1621 TTTTTCCTGG GGGCTGGGGT CGGGGTTTGT CATGGGGGAA CTGCCCTTTA AATTTTAAGT 1681 GACACTACAG AAAAACACAA AAAGGTGATG GGTTGTGTTA TGCTTGTATT GAATCCTGTC 1741 TTGACATCTC TTGCCTTGTC CTCCGGTATG TTCTAAAGCT GTGTCTGAGA TCTGGATCTG 1801 CCCATCACTT TGGCCTAGGG ACAGGGCTAA TTAATTTGCT TTATACATTT TCTTTTACTT 1861 TCCTTTTTTC CTTTCTGGAG GCATCACATG CTGGTGCTGT GTCTTTATGA ATGTTTTAAC 1921 CATTTTCATG GTGGAAGAAT TTTATATTTA TGCAGTTGTA CAATTTTATT TTTTTCTGCA 1981 AGAAAAAGTG TAATGTATGA AATAAACCAA AGTCACTTGT TTGAAAATAA ATCTTTATTT 2041 TGAACTTTAT AAAAGCAATG CAGTACCCCA TAGACTGGTG TTAAATGTTG TCTACACTGC 2101 AAAATCCATG TTCTAACATA TGTAATAATT GCCAGGAGTA CAGTGCTCTT GTTGATCTTG 2161 TATTCAGTCA GGTTAAAACA ACGGACAATA AAAGAATGAA CCGAATTC GENBANK ID: U82535.1 VERSION U82535.1 GI:2149155 CDS 36..1775 /CODON_START=1 MVQYELWAALPGASGVALACCFVAAAVALRWSGRRTARGAVVRA RQKQRAGLENMDRAAQRFRLQNPDLDSEALLALPLFQLVQKLHSRELAPEAVLFTYVG KAWEVNKGTNCVTSYLADCETQLSQAPRQGLLYGVPVSLKECFTYKGQDSTLGLSLNE GVPAECDSVVVHVLKLQGAVPFVHTNVPQSMFSYDCSNPLFGQTVNPWKSSKSPGGSS GGEGALIGSGGSPLGLGTDIGGSIRFPSSFCGICGLKPTGNRLSKSGLKGCVYGQEAV RLSVGPNARDVESLALCLRALLCEDMFRLDPTVPPLPFREEVYTSSQPLRVGYYETDN YTMPSPAMRRAVLETKQSLEAAGHTLVPFLPSNIPHALETLSTGGLFSDGGHTFLQNF KGDFVDPCLGDLVSILKLPQWLKGLLAFLVKPLLPRLSAFLSNMKSRSAGKLWELQHE IEVYRKTVIAQWRALDLDVVLTPMLAPALDLNAPGRATGAVSYTMLYNCLDFPAGVVP VTTVTAEDEAQMEHYRGYFGDINDKNLQKGMKKSVGLPVAVQCVALPWQEELCLRFMR EVERLMTPEKQSS GENBANK ID: NM_000789.1 DEFINITION HOMO SAPIENS DIPEPTIDYL CARBOXYPEPTIDASE 1 (ANGIOTENSIN I CONVERTING ENZYME) (ACE), MRNA. VERSION NM_000789.1 GI:4503272 CDS 23..3943 1 GCCGAGCACC GCGCACCGCG TCATGGGGGC CGCCTCGGGC CGCCGGGGGC CGGGGCTGCT 61 GCTGCCGCTG CCGCTGCTGT TGCTGCTGCC GCCGCAGCCC GCCCTGGCGT TGGACCCCGG 121 GCTGCAGCCC GGCAACTTTT CTGCTGACGA GGCCGGGGCG CAGCTCTTCG CGCAGAGCTA 181 CAACTCCAGC GCCGAACAGG TGCTGTTCCA GAGCGTGGCC GCCAGCTGGG CGCACGACAC 241 CAACATCACC GCGGAGAATG CAAGGCGCCA GGAGGAAGCA GCCCTGCTCA GCCAGGAGTT 301 TGCGGAGGCC TGGGGCCAGA AGGCCAAGGA GCTGTATGAA CCGATCTGGC AGAACTTCAC 361 GGACCCGCAG CTGCGCAGGA TCATCGGAGC TGTGCGAACC CTGGGCTCTG CCAACCTGCC 421 CCTGGCTAAG CGGCAGCAGT ACAACGCCCT GCTAAGCAAC ATGAGCAGGA TCTACTCCAC 481 CGCCAAGGTC TGCCTCCCCA ACAAGACTGC CACCTGCTGG TCCCTGGACC CAGATCTCAC 541 CAACATCCTG GCTTCCTCGC GAAGCTACGC CATGCTCCTG TTTGCCTGGG AGGGCTGGCA 601 CAACGCTGCG GGCATCCCGC TGAAACCGCT GTACGAGGAT TTCACTGCCC TCAGCAATGA 661 AGCCTACAAG CAGGACGGCT TCACAGACAC GGGGGCCTAC TGGCGCTCCT GGTACAACTC 721 CCCCACCTTC GAGGACGATC TGGAACACCT CTACCAACAG CTAGAGCCCC TCTACCTGAA 781 CCTCCATGCC TTCGTCCGCC GCGCACTGCA TCGCCGATAC GGAGACAGAT ACATCAACCT 841 CAGGGGACGC ATCCCTGCTC ATCTGCTGGG AGACATGTGG GCCCAGAGCT GGGAAAACAT 901 CTACGACATG GTGGTGCCTT TCCCAGACAA GCCCAACCTC GATGTCACCA GTACTATGCT 961 GCAGCAGGGC TGGAACGCCA CGCACATGTT CCGGGTGGCA GAGGAGTTCT TCACCTCCCT 1021 GGAGCTCTCC CCCATGCCTC CCGAGTTCTG GGAAGGGTCG ATGCTGGAGA AGCCGGCCGA 1081 CGGGCGGGAA GTGGTGTGCC ACGCCTCGGC TTGGGACTTC TACAACAGGA AAGACTTCAG 1141 GATCAAGCAG TGCACACGGG TCACGATGGA CCAGCTCTCC ACAGTGCACC ATGAGATGGG 1201 CCATATACAG TACTACCTGC AGTACAAGGA TCTGCCCGTC TCCCTGCGTC GGGGGGCCAA 1261 CCCCGGCTTC CATGAGGCCA TTGGGGACGT GCTGGCGCTC TCGGTCTCCA CTCCTGAACA 1321 TCTGCACAAA ATCGGCCTGC TGGACCGTGT CACCAATGAC ACGGAAAGTG ACATCAATTA 1381 CTTGCTAAAA ATGGCACTGG AAAAAATTGC CTTCCTGCCC TTTGGCTACT TGGTGGACCA 1441 GTGGCGCTGG GGGGTCTTTA GTGGGCGTAC CCCCCCTTCC CGCTACAACT TCGACTGGTG 1501 GTATCTTCGA ACCAAGTATC AGGGGATCTG TCCTCCTGTT ACCCGAAACG AAACCCACTT 1561 TGATGCTGGA GCTAAGTTTC ATGTTCCAAA TGTGACACCA TACATCAGGT ACTTTGTGAG 1621 TTTTGTCCTG CAGTTCCAGT TCCATGAAGC CCTGTGCAAG GAGGCAGGCT ATGAGGGCCC 1681 ACTGCACCAG TGTGACATCT ACCGGTCCAC CAAGGCAGGG GCCAAGCTCC GGAAGGTGCT 1741 GCAGGCTGGC TCCTCCAGGC CCTGGCAGGA GGTGCTGAAG GACATGGTCG GCTTAGATGC 1801 CCTGGATGCC CAGCCGCTGC TCAAGTACTT CCAGCCAGTC ACCCAGTGGC TGCAGGAGCA 1861 GAACCAGCAG AACGGCGAGG TCCTGGGCTC GCCCGAGTAC CAGTGGCACC CGCCGTTGCC 1921 TGACAACTAC CCGGAGGGCA TAGACCTGGT GACTGATGAG GCTCAGGCCA CCAAGTTTGT 1981 GGAGGAATAT GACCGGACAT CCCAGGTGGT GTGGAACGAG TATGCCGAGG CCAACTGGAA 2041 CTACAACACC AACATCACCA CAGACACCAG CAAGATTCTG CTGCAGAAGA ACATGCAAAT 2101 AGCCAACCAC ACCCTGAAGT ACGGCACCCA GGCCAGGAAG TTTGATGTGA ACCAGTTGCA 2161 GAACACCACT ATCAAGCGGA TCATAAAGAA GGTTCAGGAC CTAGAACGGG CAGCGCTGCC 2221 TGCCCAGGAG CTGGAGGAGT ACAACAAGAT CCTGTTGGAT ATGGAAACCA CCTACAGCGT 2281 GGCCACTGTG TGCCACCCGA ATGGCAGCTG CCTGCAGCTC GAGCCAGATC TGACGAATGT 2341 GATGGCCACA TCCCGGAAAT ATGAAGACCT GTTATGGGCA TGGGAGGGCT GGCGAGACAA 2401 GGCGGGGAGA GCCATCCTCC AGTTTTACCC GAAATACGTG GAACTCATCA ACCAGGCTGC 2461 CCGGCTCAAT GGCTATGTAG ATGCAGGGGA CTCGTGGAGG TCTATGTACG AGACACCATC 2521 CCTGGAGCAA GACCTGGAGC GGCTCTTCCA GGAGCTGCAG CCACTCTACC TCAACCTGCA 2581 TGCCTACGTG CGCCGGGCCC TGCACCGTCA CTACGGGGCC CAGCACATCA ACCTGGAGGG 2641 GCCCATTCCT GCTCACCTGC TGGGGAACAT GTGGGCGCAG ACCTGGTCCA ACATCTATGA 2701 CTTGGTGGTG CCCTTCCCTT CAGCCCCCTC GATGGACACC ACAGAGGCTA TGCTAAAGCA 2761 GGGCTGGACG CCCAGGAGGA TGTTTAAGGA GGCTGATGAT TTCTTCACCT CCCTGGGGCT 2821 GCTGCCCGTG CCTCCTGAGT TCTGGAACAA GTCGATGCTG GAGAAGCCAA CCGACGGGCG 2881 GGAGGTGGTC TGCCACGCCT CGGCCTGGGA CTTCTACAAC GGCAAGGACT TCCGGATCAA 2941 GCAGTGCACC ACCGTGAACT TGGAGGACCT GGTGGTGGCC CACCACGAAA TGGGCCACAT 3001 CCAGTATTTC ATGCAGTACA AAGACTTACC TGTGGCCTTG AGGGAGGGTG CCAACCCCGG 3061 CTTCCATGAG GCCATTGGGG ACGTGCTAGC CCTCTCAGTG TCTACGCCCA AGCACCTGCA 3121 CAGTCTCAAC CTGCTGAGCA GTGAGGGTGG CAGCGACGAG CATGACATCA ACTTTCTGAT 3181 GAAGATGGCC CTTGACAAGA TCGCCTTTAT CCCCTTCAGC TACCTCGTCG ATCAGTGGCG 3241 CTGGAGGGTA TTTGATGGAA GCATCACCAA GGAGAACTAT AACCAGGAGT GGTGGAGCCT 3301 CAGGCTGAAG TACCAGGGCC TCTGCCCCCC AGTGCCCAGG ACTCAAGGTG ACTTTGACCC 3361 AGGGGCCAAG TTCCACATTC CTTCTAGCGT GCCTTACATC AGGTACTTTG TCAGCTTCAT 3421 CATCCAGTTC CAGTTCCACG AGGCACTGTG CCAGGCAGCT GGCCACACGG GCCCCCTGCA 3481 CAAGTGTGAC ATGTACCACT CCAAGGAGGC CGGGCAGCGC CTGGCGACCG CCATGAAGCT 3541 GGGCTTCAGT AGGCCGTGGC CGGAAGCCAT GCAGCTGATC ACGGGCCAGC CCAACATGAG 3601 CGCCTCGGCC ATGTTGAGCT ACTTCAAGCC GCTGCTGGAC TGGCTCCGCA CGGAGAACGA 3661 GCTGCATGGG GAGAAGCTGG GCTGGCCGCA GTACAACTGG ACGCCGAACT CCGCTCGCTC 3721 AGAAGGGCCC CTCCCAGACA GCGGCCGCGT CAGCTTCCTG GGCCTGGACC TGGATGCGCA 3781 GCAGGCCCGC GTGGGCCAGT GGCTGCTGCT CTTCCTGGGC ATCGCCCTGC TGGTAGCCAC 3841 CCTGGGCCTC AGCCAGCGGC TCTTCAGCAT CCGCCACCGC AGCCTCCACC GGCACTCCCA 3901 CGGGCCCCAG TTCGGCTCCG AGGTGGAGCT GAGACACTCC TGAGGTGACC CGGCTGGGTC 3961 GGCCCTGCCC AAGGGCCTCC CACCAGAGAC TGGGATGGGA ACACTGGTGG GCAGCTGAGG GENBANK ID: XM_052144.2 DEFINITION HOMO SAPIENS APOLIPOPROTEIN A-IV (APOA4), MRNA. VERSION XM_052144.2 GI:15314431 CDS 114..1304 /CODON_START=1 1 AGTTCCCACT GCAGCGCAGG TGAGCTCTCC TGAGGACCTC TCTGTCAGCT CCCCTGATTG 61 TAGGGAGGAT CCAGTGTGGC AAGAAACTCC TCCAGCCCAG CAAGCAGCTC AGGATGTTCC 121 TGAAGGCCGT GGTCCTGACC CTGGCCCTGG TGGCTGTCGC CGGAGCCAGG GCTGAGGTCA 181 GTGCTGACCA GGTGGCCACA GTGATGTGGG ACTACTTCAG CCAGCTGAGC AACAATGCCA 241 AGGAGGCCGT GGAACATCTC CAGAAATCTG AACTCACCCA GCAACTCAAT GCCCTCTTCC 301 AGGACAAACT TGGAGAAGTG AACACTTACG CAGGTGACCT GCAGAAGAAG CTGGTGCCCT 361 TTGCCACCGA GCTGCATGAA CGCCTGGCCA AGGACTCGGA GAAACTGAAG GAGGAGATTG 421 GGAAGGAGCT GGAGGAGCTG AGGGCCCGGC TGCTCCGCCA TGCCAATGAG GTGAGCCAGA 481 AGATGGGGGA CAACCTGCGA GAGCTTCAGC AGCGCCTGGA GCCCTACGCG GACCAGCTGC 541 GCACCCAGGT CAACACGCAG GCCGAGCAGC TGCGGCGCCA GCTGACCCCC TACGCACAGC 601 GCATGGAGAG AGTGCTGCGG GAGAACGCCG ACAGCCTGCA GGCCTCGCTG AGGCCCCACG 661 CCGACGAGCT CAAGGCCAAG ATCGACCAGA ACGTGGAGGA GCTCAAGGGA CGCCTTACGC 721 CCTACGCTGA CGAATTCAAA GTCAAGATTG ACCAGACCGT GGAGGAGCTG CGCCGCAGCC 781 TGGCTCCCTA TGCTCAGGAC ACGCAGGAGA AGCTCAACCA CCAGCTTGAG GGCCTGACCT 841 TCCAGATGAA GAAGAACGCC GAGGAGCTCA AGGCCAGGAT CTCGGCCAGT GCCGAGGAGC 901 TGCGGCAGAG GCTGGCGCCC TTGGCCGAGG ACGTGCGTGG CAACCTGAGG GGCAACACCG 961 AGGGGCTGCA GAAGTCACTG GCAGAGCTGG GTGGGCACCT GGACCAGCAG GTGGAGGAGT 1021 TCCGACGCCG GGTGGAGCCC TACGGGGAAA ACTTCAACAA AGCCCTGGTG CAGCAGATGG 1081 AACAGCTCAG GCAGAAACTG GGCCCCCATG CGGGGGACGT GGAAGGCCAC TTGAGCTTCC 1141 TGGAGAAGGA CCTGAGGGAC AAGGTCAACT CCTTCTTCAG CACCTTCAAG GAGAAAGAGA 1201 GCCAGGACAA GACTCTCTCC CTCCCTGAGC TGGAGCAACA GCAGGAACAG CAGCAGGAGC 1261 AGCAGCAGGA GCAGGTGCAG ATGCTGGCCC CTTTGGAGAG CTGAGCTGCC CCTGGTGCAC 1321 TGGCCCCACC CTCGTGGACA CCTGCCCTGC CCTGCCACCT GTCTGTCTGT CTGTCCCAAA 1381 GAAGTTCTGG TATGAACTTG AGGACACATG TCCAGTGGGA GGTGAGACCA CCTCTCAATA 1441 TTCAATAAAG CTGCTGAGAA TCTAGCCTC GENBANK ID: M29366.1 DEFINITION HUMAN EFIDERMAL GROWTH FACTOR RECEPTOR (ERBB3) MRNA, COMPLETE CDS. VERSION M29366.1 GI:181979 CDS 100..4128 /CODON_START=1 1 ACCAATTCGC CAGCGGTTCA GGTGGCTCTT GCCTCGATGT CCTAGCCTAG GGGCCCCCGG 61 GCCGGACTTG GCTGGGCTCC CTTCACCCTC TGCGGAGTCA TGAGGGCGAA CGACGCTCTG 121 CAGGTGCTGG GCTTGCTTTT CAGCCTGGCC CGGGGCTCCG AGGTGGGCAA CTCTCAGGCA 181 GTGTGTCCTG GGACTCTGAA TGGCCTGAGT GTGACCGGCG ATGCTGAGAA CCAATACCAG 241 ACACTGTACA AGCTCTACGA GAGGTGTGAG GTGGTGATGG GGAACCTTGA GATTGTGCTC 301 ACGGGACACA ATGCCGACCT CTCCTTCCTG CAGTGGATTC GAGAAGTGAC AGGCTATGTC 361 CTCGTGGCCA TGAATGAATT CTCTACTCTA CCATTGCCCA ACCTCCGCGT GGTGCGAGGG 421 ACCCAGGTCT ACGATGGGAA GTTTGCCATC TTCGTCATGT TGAACTATAA CACCAACTCC 481 AGCCACGCTC TGCGCCAGCT CCGCTTGACT CAGCTCACCG AGATTCTGTC AGGGGGTGTT 541 TATATTGAGA AGAACGATAA GCTTTGTCAC ATGGACACAA TTGACTGGAG GGACATCGTG 601 AGGGACCGAG ATGCTGAGAT AGTGGTGAAG GACAATGGCA GAAGCTGTCC CCCCTGTCAT 661 GAGGTTTGCA AGGGGCGATG CTGGGGTCCT GGATCAGAAG ACTGCCAGAC ATTGACCAAG 721 ACCATCTGTG CTCCTCAGTG TAATGGTCAC TGCTTTGGGC CCAACCCCAA CCAGTGCTGC 781 CATGATGAGT GTGCCGGGGG CTGCTCAGGC CCTCAGGACA CAGACTGCTT TGCCTGCCGG 841 CACTTCAATG ACAGTGGAGC CTGTGTACCT CGCTGTCCAC AGCCTCTTGT CTACAACAAG 901 CTAACTTTCC AGCTGGAACC CAATCCCCAC ACCAAGTATC AGTATGGAGG AGTTTGTGTA 961 GCCAGCTGTC CCCATAACTT TGTGGTGGAT CAAACATCCT GTGTCAGGGC CTGTCCTCCT 1021 GACAAGATGG AAGTAGATAA AAATGGGCTC AAGATGTGTG AGCCTTGTGG GGGACTATGT 1081 CCCAAAGCCT GTGAGGGAAC AGGCTCTGGG AGCCGCTTCC AGACTGTGGA CTCGAGCAAC 1141 ATTGATGGAT TTGTGAACTG CACCAAGATC CTGGGCAACC TGGACTTTCT GATCACCGGC 1201 CTCAATGGAG ACCCCTGGCA CAAGATCCCT GCCCTGGACC CAGAGAAGCT CAATGTCTTC 1261 CGGACAGTAC GGGAGATCAC AGGTTACCTG AACATCCAGT CCTGGCCGCC CCACATGCAC 1321 AACTTCAGTG TTTTTTCCAA TTTGACAACC ATTGGAGGCA GAAGCCTCTA CAACCGGGGC 1381 TTCTCATTGT TGATCATGAA GAACTTGAAT GTCACATCTC TGGGCTTCCG ATCCCTGAAG 1441 GAAATTAGTG CTGGGCGTAT CTATATAAGT GCCAATAGGC AGCTCTGCTA CCACCACTCT 1501 TTGAACTGGA CCAAGGTGCT TCGGGGGCCT ACGGAAGAGC GACTAGACAT CAAGCATAAT 1561 CGGCCGCGCA GAGACTGCGT GGCAGAGGGC AAAGTGTGTG ACCCACTGTG CTCCTCTGGG 1621 GGATGCTGGG GCCCAGGCCC TGGTCAGTGC TTGTCCTGTC GAAATTATAG CCGAGGAGGT 1681 GTCTGTGTGA CCCACTGCAA CTTTCTGAAT GGGGAGCCTC GAGAATTTGC CCATGAGGCC 1741 GAATGCTTCT CCTGCCACCC GGAATGCCAA CCCATGGAGG GCACTGCCAC ATGCAATGGC 1801 TCGGGCTCTG ATACTTGTGC TCAATGTGCC CATTTTCGAG ATGGGCCCCA CTGTGTGAGC 1861 AGCTGCCCCC ATGGAGTCCT AGGTGCCAAG GGCCCAATCT ACAAGTACCC AGATGTTCAG 1921 AATGAATGTC GGCCCTGCCA TGAGAACTGC ACCCAGGGGT GTAAAGGACC AGAGCTTCAA 1981 GACTGTTTAG GACAAACACT GGTGCTGATC GGCAAAACCC ATCTCACAAT GGCTTTGACA 2041 GTGATAGCAG GATTGGTAGT GATTTTCATG ATGCTGGGCG GCACTTTTCT CTACTGGCGT 2101 GGGCGCCGGA TTCAGAATAA AAGGGCTATG AGGCGATACT TGGAACGGGG TGAGAGCATA 2161 GAGCCTCTGG ACCCCAGTGA GAAGGCTAAC AAAGTCTTGG CCAGAATCTT CAAAGAGACA 2221 GAGCTAAGGA AGCTTAAAGT GCTTGGCTCG GGTGTCTTTG GAACTGTGCA CAAAGGAGTG 2281 TGGATCCCTG AGGGTGAATC AATCAAGATT CCAGTCTGCA TTAAAGTCAT TGAGGACAAG 2341 AGTGGACGGC AGAGTTTTCA AGCTGTGACA GATCATATGC TGGCCATTGG CAGCCTGGAC 2401 CATCCCCACA TTGTAAGGCT GCTGGGACTA TGCCCAGGGT CATCTCTGCA GCTTGTCACT 2461 CAATATTTGC CTCTGGGTTC TCTGCTGGAT CATGTGAGAC AACACCGGGG GGCACTGGGG 2521 CCACAGCTGC TGCTCAACTG GGGAGTACAA ATTGCCAAGG GAATGTACTA CCTTGAGGAA 2581 CATGGTATGG TGCATAGAAA CCTGGCTGCC CGAAACGTGC TACTCAAGTC ACCCAGTCAG 2641 GTTCAGGTGG CAGATTTTGG TGTGGCTGAC CTGCTGCCTC CTGATGATAA GCAGCTGCTA 2701 TACAGTGAGG CCAAGACTCC AATTAAGTGG ATGGCCCTTG AGAGTATCCA CTTTGGGAAA 2761 TACACACACC AGAGTGATGT CTGGAGCTAT GGTGTGACAG TTTGGGAGTT GATGACCTTC 2821 GGGGCAGAGC CCTATGCAGG GCTACGATTG GCTGAAGTAC CAGACCTGCT AGAGAAGGGG 2881 GAGCGGTTGG CACAGCCCCA GATCTGCACA ATTGATGTCT ACATGGTGAT GGTCAAGTGT 2941 TGGATGATTG ATGAGAACAT TCGCCCAACC TTTAAAGAAC TAGCCAATGA GTTCACCAGG 3001 ATGGCCCGAG ACCCACCACG GTATCTGGTC ATAAAGAGAG AGAGTGGGCC TGGAATAGCC 3061 CCTGGGCCAG AGCCCCATGG TCTGACAAAC AAGAAGCTAG AGGAAGTAGA GCTGGAGCCA 3121 GAACTAGACC TAGACCTAGA CTTGGAAGCA GAGGAGGACA ACCTGGCAAC CACCACACIG 3181 GGCTCCGCCC TCAGCCTACC AGTTGGAACA CTTAATCGGC CACGTGGGAG CCAGAGCCTT 3241 TTAAGTCCAT CATCTGGATA CATGCCCATG AACCAGGGTA ATCTTGGGCA GTCTTGCCAG 3301 GAGTCTGCAG TTTCTGGGAG CAGTGAACGG TGCCCCCGTC CAGTCTCTCT ACACCCAATC 3361 CCACGGGGAT GCCTGGCATC AGAGTCATCA GAGGGGCATG TAACAGGCTC TGAGGCTGAG 3421 CTCCAGCAGA AAGTGTCAAT GTGTAGAAGC CCGAGCAGCA GGCGGAGGCG ACGGCCACGC 3481 GGAGATAGGG CCTACCATTC CCAGCGCCAC AGTCTGCTGA CTCCTGTTAC CCCACTCTCC 3541 CCACCCGGGT TAGAGGAAGA GGATGTCAAC GGTTATGTCA TGCCAGATAC ACACCTCAAA 3601 GGTACTCCCT CCTCCCGGGA AGGCACCCTT TCTTCAGTGG GTCTTAGTTC TGTCCTGGGT 3661 ACTGAAGAAG AAGATGAAGA TGAGGAGTAT GAATACATGA ACCGGAGGAG AAGGCACAGT 3721 CCACCTCATC CCCCTAGGCC AAGTTCCCTT GAGGAGCTGG GTTATGAGTA CATGGATGTG 3781 GGGTCAGACC TCAGTGCCTC TCTGGGCAGC ACACAGAGTT GCCCACTCCA CGCTGTACGC 3841 ATCATGCCCA CTGCAGGCAC AACTCCAGAT GAAGACTATG AATATATGAA TCGGCAACGA 3901 GATGGAGGTG GTCCTGGGGG TGATTATGCA GCCATGGGGG CCTGCCCAGC ATCTGAGCAA 3961 GGGTATGAAG AGATGAGAGC TTTTCAGGGG CCTGGACATC AGGCCCCCCA TGTCCATTAT 4021 GCCCGCCTAA AAACTCTACG TAGCTTAGAG GCTACAGACT CTGCCTTTGA TAACCCTGAT 4081 TACTGGCATA GCAGGCTTTT CCCCAAGGCT AATGCCCAGA GAACGTAACT CCTGCTCCCT 4141 GTGGCACTCA GGGAGCATTT AATGGCAGCT AGTGCCTTTA GAGGGTACCG TCTTCTCCCT 4201 ATTCCCTCTC TCTCCCAGGT CCCAGCCCCT TTTCCCCAGT CCCAGACAAT TCCATTCAAT 4261 CTTTGGAGGC TTTTAAACAT TTTGACACAA AATTCTTATG GTATGTAGCC AGCTGTGCAC 4321 TTTCTTCTCT TTCCCAACCC CAGGAAAGGT TTTCCTTATT TTGTGTGCTT TGCCAGTCGC 4381 ATTCCTCAGC TTCTTCACAG GCACTCCTGG AGATATGAAG GATTACTCTC CATATCCCTT 4441 CCTCTCAGGC TCTTGACTAC TTGGAACTAG GCTCTTATGT GTGCCTTTGT TTCCCATCAG 4501 ACTGTCAAGA AGAGGAAAGG GAGGAAACCT AGCAGAGGAA AGTGTAATTT TGGTTTATGA 4561 CTCTTAACCC CCTAGAAAGA CAGAAGCTTA AAATCTGTGA AGAAAGAGGT TAGGAGTAGA 4621 TATTGATTAC TATCATAATT CAGCACTTAA CTATGAGCCA GGCATCATAC TAAACTTCAC 4681 CTACATTATC TCACTTAGTC CTTTATCATC CTTAAAACAA TTCTGTGACA TACATATTAT 4741 CTCATTTTAC ACAAAGGGAA GTCGGGCATG GTGGCTCATG CCTGTAATCT CAGCACTTTG 4801 GGAGGCTGAG GCAGAAGGAT TACCTGAGGC AAGGAGTTTG AGACCAGCTT AGCCAACATA 4861 GTAAGACCCC CATCTCTTT GENBANK ID: X54686 VERSION X54686.1 GI:56909 MCTKMEQAFYHDDSYAAAGYGRSPGSLSLHDYKLLKPTLALNLA DPYRGLEGPGARGPGPEGSGAGSYFSGQGSDTGASLKLASTELERLIVPNSNGVITTT PTPPGQYPYPRGGGSGGGTGGGVTEEQEGFADGFVKALDDLQKMNHVTPPNVSLGASG GPQAGPGGVYAGPEPPPVYTNLSSYSPASAPSGGSGTAVGTGSSYPTATISYLPHAPP FAGGNPAQLGLSRGASAFKEEPQTVPEARSRDATPPVSPINMEDQERIKVERKRLRNR LAATKCRKRKLERIARLEDKVKTLKAENAGLSSAAGLLREQVAQLKQKVMTHVSNGCQ LLLGVKGHAF GENBANK ID: D26307 VERSION D26307.1 GI:450471 METPFYGEEALSGLAAGASSVAGAAGAPGGGGPAPPGRAFPGAP PTSSNLKKQALTLSLAEQGAAGLKPGSATAPSALRPDGAPDGLLASPDLGLLKLASPE LERLIIQSNGLVTTTPTSTQFLYPKVAASEEQEFAEGFVKALEDLHKQSQLGAATAAT SGAPAPPAPADLAATPGATETPVYANLSSFAGGAGPPGGAATVAFAAEPVPFPPPPGA LGPPPPPHPPRLAALKDEPQTVPDVPSFGDSPPLSPIDMDTQERIKAERKRLRNRIAA SKCRKRKLERISRLEEKVKTLKSQNTELASTASLLREQVAQLKQKVLSHVNSGCQLLP QHQVPAY GENBANK ID: NM_012747.1 VERSION NM_012747.1 GI:6981591 MAQWNQLQQLDTRYLEQLHQLYSDSFPMELRQFLAPWIESQDWA YAASKESHATLVFHNLLGEIDQQYSRFLQESNVLYQHNLRRIKQFLQSRYLEKPMEIA RIVARCLWEESRLLQTAATAAQQGGQANHPTAAVVTEKQQMLEQHLQDVRKRVQDLEQ KMKVVENLQDDFDFNYKTLKSQGDMQDLNGNNQSVTRQKMQQLEQMLTALDQMRRSIV SELAGLLSAMEYVQKTLTDEELADWKRRQQIACIGGPPNICLDRLENWITSLAESQLQ TRQQIKKLEELQQKVSYKGDPIVQHRPMLEERIVDLFRNLMKSAFVVERQPCMPMHPD RPLVIKTGVQFTTKVRLLVKFPELNYQLKIKVCIDKDSGDVAALRGSRKFNILGTNTK VMNMEESNNGSLSAEFKHLTLREQRCGNGGRANCDASLIVTEELHLITFETEVYHQGL KIDLETHSLPVVVISNICQMPNAMASILWYNMLTNNPKNVNFFTKPPIGTWDQVAEVL SWQFSSTTKRGLSIEQLTTLAEKLLGPGVNYSGCQITWAKFCKENMAGKGFSFWVWLD NIIDLVKKYILALWNEGYIMGFISKERERAILSTKPPGTFLLRFSESSKEGGVTPTWV EKDISGKTQIQSVEPYTKQQLNNMSFAEIIMGYKIMDATNILVSPLVYLYPDIPKEEA FGKYCRPESQEHPEADPGSAAPYLKTKFICVTPTTCSNTIDLPMSPRTLDSLMQFGNN GEGAEPSAGGQFESLTFDMDLTSECATSPM GENBANK ID: L26267.1 VERSION L26267.1 GI:425471 REILNPPEKETQGEGPSLFMASTKTEAIAPASTMEDKEEDVGFQ DNLFLEKALQLAKRHANALFDYAVTGDVKNLLAVQRHLTAVQDEN0DSVLHLAIIHLE AQLVRDLLEVTSGSISDDIINMRNDLYQTPLHLAVITKQEDVVEDLLRVGADLSLLDR WGNSVLHLAAKEGHDKILGVLLKNSKAALLINHPNGEGLNAIHIAVMSNSLSCLQLLV AAGAEVNAQEQKSGRTALHLAVEYDNISLAGCLLLEGDALVDSTTYDGTTPLHIAAGR GSTRLAALLKAAGADPLVENFEPLYDLDDSWEKAGEDEGVVPGTTFLDMAANWQVFDI LNGKFYEFVFTSDDILPQGDIKQLTEDTRLQLCKLLEIFDPDKNNATLAQKLGLGILN NAFRLSFAPSKTLMDNYEVSGGTIKELVEALRQMGYTEAIEVIQAAFRTPETTASSPV TTAQAHLLPLSSSSTRQHIDELRDNDSVCDSGVETSFRKLSFSESLTGDGPLLSLNKM FHNYGQDGPIEGKI GENEANK ID: M3435 6.1 VERSION M34356.1 GI:181042 MTMESGAENQQSGDAAVTEAENQQMTVQAQFQIATLAQVSMPAA HATSSAPTVTLVQLPNGQTVQVHGVIQAAQFSVIQSPQVQTVQISTIAESEDSQESVD SVTDSQKRREILSRRPSYRKILNDLSSDAFGVFRIEEEKSEEETSAFAITTVTVPTPI YQTSSGQYIAITQGGAIQLANNGTDGVQGLQTLTMTNAAATQPGTTILQYAQTTDGQQ ILVPSNQVVVQAASGDVQTYQIRTAPTSTIAFGVVMASSPALPTQPAEEAARKREVRL MKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKALKDYCHKSD GENBANK ID: X68193.1 VERSION X68193.1 GI:53353 MANLERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVAMKFLRAS EEHLEQEYIDLKDRPFFFGLVKYMNSGPVVAMVWEGLNVVKTGRVNLGETNPADSKFG TIRGDFCIQVGRNIIHGSDSVESAEKEIHLWFKPEELIDYKSCAHDWVYE GENBANK ID: U29200.1 VERSION U29200.1 GI:924934 MANLERTFIAIKPDGVQR GENBANK ID: L35572 VERSION L35572.1 GI:531219 MNVHCAGCERFILDRFLLNVLDRAWHIKCVQCCECKTNLSEKCF SREGKLYCKNDFFRRFGTKCAGCAQGISPSDLVRKARSKVFHLNCFTCMVCNKQLSTG EELYVIDENKFVCKDDYLSSSSLKEGSLNSVSSCTDRSLSPDLQDFLQDDPKETDNST SSDKETANNENEEQNSGTKRRGFRTTIKAKQLETLKAAFAATFKFTRHIREQLAQETG LNMRVIQVWFDNRRSKERRMKQLSALGARRHAFFRSPRRMRPLGGRLDESEMLGSTPY TYYGDYGSDYVAPGGNYDFFAHGPPSQAQSPADSSFLAASGPGSTPLGALEPPLAGPH GADNPRFTDMISHPDTPSPEPGLPGALHPNPGEVFSGGPSPPFPMSGTSGY5GPLSHP NPELNEAAVW GENBANK ID: X55787.1 VERSION X55797.1 GI:296022 MKAAVDLKPTLTIIKTEKVDLELFPSPENECADVPLSTPSSKEM MSQALKSYFSGFTKEQQRRGIPKDPRQWTDTHVRDWVMAVNEFSLKGVDFHKFCMSG AAVCALGKECFLELAPDFVGDILWEELEILQKEDVKPYQVNGANPTYPESCYTSVYFI SYGIEHAQCVPPSEFSEPSFITESYQTLHPISSEELLSLKYENDYPSVILRDPLQTET LQTDYFRIKQEVLTPNNMCLGRASRGKLGGQDSFESVESYDSCDRLTQSWSSQSSFNS LQRVPSYDSFDYEDYPAALPNHKPKGTFKDYVRDRADLNKDKPVIPAAALAGYTGSGP IQLWQFLLELLTDKSCQSFISWTGDCNEFKLSDPDEVARRWGKRKNKPSMNYEKLSRA LRYYYDKNIIHKTAGNAYVYAFVCDLQSLLGYTPEELHAMLDVKPDAD GENBANK ID: M11507.1 DEFINITION Human transferrln receptor VERSION M11507.1 GI:339515 MMDQARSAFSNLFGGEFLSYTRFSLARQVDGDNSHVENKLAVDE EENADNNTKANVTKPKRCSGSICYCTIAVIVFFLIGFMIGYLGYCKGVEPKTECERLA GTESPVREEFGEDFFAARRLYWDDLKRKLSEKLQSTDFTSTIKLLNENSYVPREAGSQ KDENLALYVENQFREFKLSKVWRDQHFVKTQVKDSAQNSVIIVDKNGRLVYLVENPGG YVAYSKAATVTCKLVHANFGTKKDFEDLYTPVNCSTVIVRAGKITFAEKVPNAESLNA IGVLIYMDQTKFFIVNAELSFFGHAHLGTGDPYTPGFPSFNHTQFPPSRSSGLPNIPV QTISRAAAEKLFGNMEGDCPSDWKTDSTCRMVTSESKNVKLTVSNVLKEIKILNIFGV IKCFVEPDNYVVVGAQRDAWGP0AAKSGVGTALLLKLAQMFSDNVLKQGFQFSRSIIF ASWSAGDFGSVGATEWLEGYLSSLHLKAFTYINLDKAVLGTSNFKVSASPLLYTLIEK TMQNVKHPVTGQFLYQDSNWASKVEKLTLDNAAFPFLAYSGIPAVSFCFCEDTDYPYL GTTMDTYKELIERIPELNKVARAAAEVAGQFVIKLTHDVELNLDYERYNSQLLSFVRD LNQYRADIKEMGLSLQWLYSARGDFFPATSRLTTDFGNAEKTDRFVMKKLNDRVMRVE YHFLSPYVSPKESPFRHVFWGSGSHTLPALLENLKLRKQNNCAFNETLFRNQLALATW TIQGAANALSGDVWDIDNEF GENBANK ID: AAA60255 VERSION AAA60255.1 GI:190927 1 mteyklvvvg aggvgksalt iqllqnhfvd eydptledsy rkqvvidget clldildtag 61 qeeysamrdq ymrtgegflc vfainnsksf adlnlyreqi krvkdsddvp mvlvgnkcdl 121 ptrtvdtkqa helaksygip fietsaktrq gvedafytlv reirqyrmkk lnssddgtgg 181 cmglpcvvm GENBANK ID: AAB38309 VERSION AAB38309.1 GI:1497931 1 mslvlndlli ccrqlehdra terkkevekf krllrdpeti khldrhsdsk qgkylnwdav 61 frflqkyiqk eteclrlakp nvsastqasr qkknqeissl vkytikcanr raprlkcqel 121 lnyimdtvkd ssngalygad csnhllkdil svrkywceis qqqwlelfsv yfrlylkpsq 181 dvhrvlvari ihavtkgccs qtdglnskkfl dffskaiqca rqeksssgln hilaaltifi 241 ktlavnfrir vcelgdeilp tllyiwtqhr lndslkevii elfqlqiyih hpkgaktqek 301 gayestkwrs ilynlydllv neishlgsrg kyssgfrnia vkenllelma dichqvfned 361 trslelsqsy tttqressdy svpckrkkie lgwevikdhl qksqndfdlv pwlqiatqli 421 skypaslpnc elspllmils qllpqqrhge rtpyvlrclt evalcqdkrs nlessqksdl 481 lklwnkiwci tfrgisseqi qaenfgllga iiqgslvevd refwklftgs acrpscpavc 541 cltlalttsi vpgtvkmgie qnmcevnrsf slkesimkwl ltyqlegdle nstevppilh 601 snfphlvlek ilvslomknc kaamnffqsv pecehhqkdk eelsfsevee lflqttfdkm 661 dfltivrecg iekhqssigf svhqnlkesl drcllglseq llnnysseit nsetlvrcsr 721 llvgvlgcyc ymgviaeeea ykselfqkak slmqcaqesi tlfknktnee trigslrnmm 781 qlctrclsnc tkkspnkias gfflrlltsk lmndiadick slasflkkpf firgevesmed 841 dtngnlmeve dgssmnlfnd ypdssvsdan epgesqstig ainplaeeyl skgdllfldm 901 lkflclcvtt aqtntvsfra adirrkllml idsstleptk sihihmylmi lkelpgeeyp 961 lpmedvlell kplsnvcsly rrdqdvckti lnhvlhvvkn lgqsnmdsen trdaqgqflt 1021 vigafwhltk erkyifsvrm alvnclktll eadpyskwai lnvmgkdfpv nevftqflad 1081 nhhqvrmlaa esinrlfqdt kgdssrllka lplklqqtaf enaylkaqeg mremshsaen 1141 petldeiynr ksvlltliav vlscapicek qalfalcksv kenglephlv kkvlekvset 1201 fgyrrledfm ashldylvle wlnlqdteyn lsstpfilln ytniedtyrs cykvliphlv 1261 irshfdevks ianqigedwk slltdcfpki lvnilpytay egtrdsgmaq qretatkvyd 1321 mlksenllgk qidhitisni peivvellmt lhepanssas qstdlcdfsg dldpapnpph 1381 fpshvlkatf ayisnchktk ikaileilak spdsyqkill aiceqaaetn nvykkhrilk 1441 iyhlfvslll kdiksglgga watvlrdviy tlihylnqrp scimdvslrs fslccdllsq 1501 vcqtavtyck dalenhlhvl vgtliplvye qvevqkqvld llkylvidnk dnenlyitik 1561 lldpfpdhvv fkdlrltqqk ikysrgpfsl leeinhflsv svydalplcr leglkdlrrq 1621 lelhkdqmvd inrasqdnpq dglmvklvvn llqlskmain htgekevlea vgsclgevgp 1681 idfstiaiqh skdasytkal kltedkelqw tfimltylnn tlvedcvkvr saavtclkni 1741 latktghsfw eiykmttdpm laylqpfrts rkkflevprf dkenpfegld dinlwiplse 1801 nhdiwiktlt cafldsggtk ceilqllkpm cevktdfcqt vlpylihdil lqdtneswrn 1861 llsthvqgff tsclrhfsqt srsttpanld sesehffrcc ldkksgrtml avvdymrrqk 1921 rpssgtifnd atwldinyle vakvaqscaa hftallyaei yadkksmddq ekrslateeg 1981 sqsttissls ekskeetgis lqdllleiyr sigepdslyg cgggkmlqpi trlrtyehea 2041 mwgkalvtyd letaipsstr qagiiqalqn igichilavy lkgldyenkd wcpeleelhy 2101 qaawrnmqwd hctsvskeve gtsyheslyn alqslrdref stfyeslkya rvkeveemck 2161 rslesvysly ptlsrlqaig elesigelfs rsvthrqlse vyikwqkhsq llkdsdfsfq 2221 epimalrtvi leilmekemd nsqrecikdl ltkhlvelsi lartfkntql peralfqikq 2281 ynsvscgvse wqleeaqvfw akkeqslals ilkqmikkld ascaannpsl kltyteclrv 2341 cgnwlaetcl enpavimqty lekavevagn ydgessdelr ngkmkaflsl arfsdtqyqr 2401 ienymkssef enkqallkra keevgllreh klqtnrytvk vqreleldel alralkedrk 2461 rflckaveny incllsgeeh dmwvtrlcsl wlensgvsev ngmmkrdgmk iptykflplm 2521 yqlaarmgtk mmgglgfhev lnnlisrism dhphhtlfii lalananrde fltkpevarr 2581 sritknvpkq ssqldedrte aanrilctir srrpqmvrsv ealcdayill anldatqwkt 2641 qrkginipad qpitklknle dvvvptmeik vdhtgeygnl vtiqsfkaet rlaggvnlpk 2701 iidcvgsdgk errqlvkgrd dlrqdavmgq vfqmcntllq rntetrkrkl tictykvvpl 2761 sqrsgvlewc tgtvpigefl vnnedgahkr yrpndfsafq cqkkmmevqk ksfeekyevf 2821 mdvcqntqpv fryfcmekfl dpaiwfekrl aytrsvatss ivgyilglgd rhvqniline 2881 qsaelvhidl gvafeqgkil ptpetvpfrl trdivdgmgl tgvegvfrrc cektmevmrn 2941 sqetlitlve vllydplfdw tmnplkalyl qqrpedetel hptlnaddqe ckrnlsdidq 3001 sfdkvaervl mrlqeklkgv eegtvlsvgg qvnlliqqai dpknlsrlfp gwkawv GENBANK ID: AAA59145.1 VERSION AAA59145.1 GI:307058 1 mlkpslpfts llflqlpllg vglnttiltp ngnedttadf flttmptdsl svstlplpev 61 qcfvfnveym nctwnsssep qptnltlhyw yknsdndkvq kcshyltsee itsgcqlqkk 121 eihlyqtfvv qlqdpreprr qatqmlklqn lvipwapenl tlhklsesql elnwnnrfln 181 hclehlvqyr tdwdhswteq svdyrhkfsl psvdgqkryt frvrsrfnpl cgsaqhwsew 241 shpihwgsnt skenptlfal eavvisvgsm gliisllovy fwlertmpri ptlknledlv 301 teyhgnfsaw sgvskglaes lqpdyserlc lvseippkgg algegpgasp cnqhspywap 361 pcytlkpet GENBANK ID: AAC50825.1 VERSION AAC50825.1 GI:1117984 1 mvaprplrrv vlfyggklcs magnfwqssh ylqwildkqd llkerqkdlk flseeeywkl 61 qifftnviqa lgehlklrqq viatatvyfk rfyaryslks idpvlmaptc vflaskveef 121 gvvsntrlia aatsvlktrf syafpkefpy rmnhilecef yllelmdccl ivyhpyrpll 181 qyvqdmgged mllplawriv ndtyrtdlcl lyppfmiala clhvacvvqq kdarqwfael 241 svdmekilei irvilklyeq wkntderkem atilskmpkp kpppnsegeq gpngsqnssy 301 sqs GENBANK ID: AAC50473.1 VERSION AAC50473.1 GI:1314346 1 mamssggsgg gvpeqedsvl frrgtgqsdd sdiwddtali kaydkavasf khalkngdic 61 etsgkpkttp krkpakknks qkkntaaslq qwkvgdkcsa iwsedgciyp atlasidfkr 121 etcvvvytgy gnreeqnlsd llspicevan nleqnaqene nesqvstdes ensrspgnks 181 dnikpksapw nsflpppppm pgprlgpgkp glkfngpppp pppppphlls cwlppfpsgp 241 piipppppic pdslddadal gsmliswyms gyhtgyymgf rqnqkegrcs hsln GENBANK ID: CAC15525 VERSION CAC15525.1 GI:11137517 1 mvsrdqahlg pkyvglwdtk srtdeelsfr agdvfhvark eeqwwwatll deaggavaqg 61 yvphnylaer etvesepwff qcisrseavr rlqaegnatg aflirvsekp sadyvlsvrd 121 tqavrhykiw rraggrlhln eavsflslpe lvnyhraqsl shglrlaapc rkhepeplph 181 wddwerpree ftlcrklgsg yfgevfeglw kdrvqvaikv isrdnllhqq mlqseiqamk 241 klrhkhilal yavvsvgdpv yiltelmakg sllellrdsd ekvlpvsell diawqvaegm 301 cylesqnyih rdlaarnilv gentlckvgd fglarliked vylshdhnip ykwtapeals 361 rghystksdv wsfglllhem fsrgqvpypg msnheaflrv dagyrmpcpl ecppsvhklm 421 ltcwcrdpeq rpcfkalrer lssftsyenp t GENBANK ID: AAB84296 VERSION AAB84296.1 GI:2613135 1 tsttvrglna strylfrvra svqqigdwsn tveettlglq saspvqesrv aedgldqqlv 61 iavvgsvsat cltiiaalla lvclrrsclh rrhtftyqsg sgeetilqfs sgtltltrrp 121 kpqpeplsyp vle GENBANK ID: X63594.1 VERSION X63594.1 GI:57673 MFQPAGHGQDWANEGPRDGLKKERLVDDRHDSGLDSNKDEDYEQ MVKELREIRLQFQEAPLAAEPWKQQLTEDGDSFLHLAIIHEEKTLTMEVIGQVKGDLA FLNFQNNLQQTPLHLAVITNQPGIAEALLKAGCDPELRDFRGNTPLHLACEQGCLASV AVLTQTCTPQHLHSVLQATNYNGHTCLHLASIHGYLGIVEHLVTLGADVNAQEPCNGR TALHLAVDLQNPDLVSLLLKCGADVNRVTYQGYSPYQLTWGRPSTRIQQQLGQLTLEN LQTLPESEDEESYDTESEFTEDELPYDDCVFGGQRLTL GENBANK ID: AAB60641 VERSION AAB60641.1 GI:516515 1 meqqdqsmke gmgttwllst pqhwlmqqfy netyygrtge fmedfpltll wsvtvsmfpf 61 ggfigsllvg plvnkfgrkg allfnnifsi vpailmgcsr vatsfeiiii srllvgicag 121 vssnvvpmyl gelapknlrg algvvpqlfi tvgilvaqif glrnllanvd gwpillgltg 181 vgaalqllll pffpespryl liqkkdeaaa kkalqtlrgw dsvdrevaei rqedeaekaa 241 gfisvlklfr mrslrwqlls iivlmggqql sgvnaiyyya dqiylsagvp eehvqyvtag 301 tgavnvvmtf cavfvvellg rrlllllgfs icliaccvlt aalalgdtvs wmpyisivcv 361 isyvlghaig pspipallit eiflqssrps afmvggsvhw lsnftvglif pfiqeglgpy 421 sfivfavic1 lttiyifliv petkaktfie ingiftkmnk vsevypekee lkelppvtse 481 q GENEANK ID: M29069 VERSION M29069.1 GI:205553 MLSCTTSTMPGMICKNSDLEFDSLKFCFYPEDDDIYFGGRNSTP PGEDIWKKEELLPTFRLSPGRALAEDSLEPANMATEMLLFEADLWSNPAEEEDIFGLK GLSGSSSNPVVLQDCMWSGFSSREKPETVVSEKLPGGCGSLAVGAGTLVPGAAAATSA GHARSGTAGVGRRKAAWLTELSHLDSECVDSAVIFFANKRESMPVATIPASAGPAISL GDHQGLSSSLEDFLSNSGYVEEGGEEIYVVMLGETQFSKTVTKLPTAAHSENAALTPE CAQSGELILKRSDLIQEDHNYAAFPLPYAEDARPLKKPRSQDPLGPLKCVLRPKAPRL RSRSNSDLEDIERRRNHNRMERQRRDIMRSSFLNLRDLVPELVHNEKAAKVVILKKAT EYIHTLQTDESKLLVEREKLYERKQQLLEKIKQSAVC GENBANK ID: M29039.1 VERSION M29039.1 GI:186626 MCTKMEQPFYHDDSYTATGYGRAPGGLSLHDYKLLKPSLAVNLA DFYRSLKAPGARGPGPEGGQGGSYFSGQGSDTGASLKLASSELERLIVFNSNGVITTT PTPPGQYFYPRGGGSGGGAGGAGGGVTEEQEGFADGFVKALDDLHKMNMVTPFNVSLG ATGGPPAGPGGVYAGPEPPPVYTNLSSYSPASASSGGAGAAVGTGSSYPTTTISYLPH APPFAGGHPAQLGLGRGASTFKEEPQTVFEARSRDATPPVSPINMEDQERIKVERKRL RNRLAATKCRKRKLERIARLEDKVKTLKAENAGLSSTAGLLREQVAQLKQKVNTMVSN GCQLLLGVKGHAF GENBANK ID: X56681.1 VERSION X56681.1 GI:34018 METPFYGDEALSGLGGGASGSGGTFASPGRLFPGAPPTAAAGSM MKKDALTLSLSEQVAAALKPAPAPASYPPAADGAPSAAPPDGLLASPDLGLIKLASPE LERLIIQSNGLVTTTFTSSQFLYFKVAASEEQEFAEGFVKALEDLHKQNQLGAGRAAA AAAAAAGGPSGTATGSAPPGGELAPAAAAPEAPVYANLSSYAGAGGAGGAATVAFAAE PVPFPPPPPPGALGFFRLAALKDEPQTVFDVFSFGESFFLSFIDMDTQERIKAERKRL RNRIAASKCRKRKLERISRLEEKVKTLKSQNTELASTASLLREQVAQLKQKVLSMVNS GCQLLPQHQVPAY GENBANK ID: NM_003150.1 VERSION NM_003150.1 GI:4507252 MAQWNQLQQLDTRYLEQLHQLYSDSFFMELRDFLAFWIESQDWA YAASKESHATLVFHNLLGEIDQQYSRFLQESNVLYGHNLRRIKQFLQSRYLEKFMEIA RIVARCLWEESRLLQTAATAAQQGGQANMFTAAVVTEKQQMLEQHLQDVRKRVQQLEQ KMKVVENLQDDFDFNYKTLKSQGDMQDLNGNNQSVTRQKMQQLEQMLTALDQMRRSIV SELAGLLSAMEYVQKTLTGEELADWKRRQQIACIGGFFNICLDRLENWITSLAESQLQ TRQQIKKLEELHQKVSYKGDFIVQHRFMLEERIVVELFRNLMKSAFWERQFCMFMHPD RPLVIKTGVQFTTKVRLLVKFFELNYQLKIKVCIDKDSGDVAALRGSRKFNILGTNTK VMNMEESNNGSLSAEFKHLTLREQRCGNGGRANCDASLIVTEELHLITFETEVYHQGL KIDLETMSLSVVVISNICQMFNAWASILWYNMLTNNFKNVNFFTKPPIGTWDGVAEVL SWQFSSTTKRGLSIEQLTTLAEKLLGFGVNYSGCQITWANFCKENNAGKGESYMVMLD NIIDLVKKYILALWNEGYIMGFISKEREFAILSTKFFGTELLRESESSKEGGVTETMV EKDISGKTQIQSVEFYTKQQLNNMSFAEIIMGYKIMDATNILLSFLVYLYFDIPKEEA FGKYCRFESGEHFEADFGSAAFYLKTKFICVTPTTCSNTIDLPMSPRALDSLMQFGNN GEGAEPSAGGQFESLTFDMELTSECATSPM

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0 SEQUENCE LISTING The patent application contains a lengthy “Sequence Listing” section. A copy of the “Sequence Listing” is available in electronic form from the USPTO web site (http://seqdata.uspto.gov/sequence.html?DocID=20030211476). An electronic copy of the “Sequence Listing” will also be available from the USPTO upon request and payment of the fee set forth in 37 CFR 1.19(b)(3). 

1. A method of increasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell a nucleic acid coding for a protein, wherein absent said increase, the levels of said protein or its mRNA is greater than in a non-Peyer's patch cell.
 2. The method of claim 1 wherein the protein is a transcription factor or a protein that activates a transcription factor.
 3. The method of claim 2 wherein the transcription factor or a protein that activates a transcription factor is selected from the group consisting of Jun-B; c-jun related TF, Jun-D; c-jun related TF, STAT 3-signal transducer and activator of transcription 3, NF-kappaβ Tf p105 subunit, S-myc proto-oncogene; myc related, Nm23-M2; nucleoside diphosphate kinase B; metastasis reducing protein, and C-est-l proto-oncogene; p54.
 4. The method of claim 1 wherein the protein is a receptor, or cell surface antigen,
 5. The method of claim 4 wherein the protein is a receptor or a transporter.
 6. The method of claim 1 wherein the protein is selected from the group consisting of nucleoside diphosphate kinases and member of the 14-3-3 family.
 7. The method of claim 1 wherein the protein is coded for by a gene with an expression Fold Change denoted by a **, *, or number greater than 2.00 in Tables 2 or
 3. 8. The method of claim 1 wherein the nucleic acid coding for at least 2 proteins is delivered, each of said proteins coded for by a gene with an expression Fold Change denoted by a **, *, or number greater than 2.00 in Tables 2 or
 3. 9. The method of claim 1 wherein the cell to which the nucleic acid is delivered is a human cell.
 10. The method of claim 9 wherein the cell is in a Peyer's patch in a human and the nucleic acid is delivered by the oral route.
 11. The method of claim 9 wherein the cell is not within the body of a human.
 12. The method of claim 1 wherein the cell to which the nucleic acid is delivered is a rat cell.
 13. The method of claim 1 wherein a nucleic acid coding for a tumor antigen or foreign peptide is also delivered to the Peyer's patch cell.
 14. The method of claim 13 wherein the cell to which the nucleic acid is delivered is a human cell.
 15. A method of decreasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell an anti-sense nucleic acid molecule, a ribozyme nucleic acid molecule, an RNA interference nucleic acid molecule (RNAi), said anti-sense molecule, ribozyme or RNAi nucleic acid being complementary to a sequence of at least 10 nucleotides of the mRNA for said protein, wherein absent said anti-sense molecule, ribozyme or RNAi nucleic acid, the levels of said protein or its mRNA is less than in a non-Peyer's patch cell.
 16. The method of claim 15 wherein the anti-sense nucleic acid, a ribozyme nucleic acid molecule, an RNA interference nucleic acid molecule is complementary to a sequence of at least 15 nucleotides of the mRNA of the protein.
 17. The method of claim 16 wherein the anti-sense nucleic acid, a ribozyme nucleic acid molecule, an RNA interference nucleic acid molecule is complementary to a sequence of at least 30 nucleotides of the mRNA of the protein.
 18. The method of claim 15 wherein the protein is coded for by a gene with an expression Fold Change denoted by a “−”, or a number less that 0.5 in Tables 2 or
 3. 19. The method of claim 15 comprising delivering to said cell anti-sense nucleic acid molecules, ribozyme nucleic acid molecules, RNA interference nucleic acid molecules, said anti-sense, ribozyme or RNAi nucleic acid being complementary to a sequence of at least 10 nucleotides of the mRNA for at least 5 different protein a, wherein absent said anti-sense, ribozyme or RNAi nucleic acid molecule, the levels of each of said proteins or its mRNA is less than in a non-Peyer's patch cell.
 20. A method of decreasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell an anti-sense nucleic acid molecule, a ribozyme nucleic acid molecule, an RNA interference nucleic acid molecule said anti-sense, ribozyme or RNAi nucleic acid forming a double-stranded molecule with part or all of the mRNA for said protein, wherein absent said anti-sense, ribozyme or RNAi nucleic acid molecule, the levels of said protein or its mRNA is less than in a non-Peyer's patch cell.
 21. A method of claims 1, 13, or 15 in which the Peyer's patch cell is an M cell.
 22. A human cell to which the method of claims 1 has been applied, or the progeny of said human cell.
 23. A human cell to which the method of claim 13 has been applied, or the progeny of said human cell.
 24. A human cell to which the method of claim 15 has been applied, or the progeny of said human cell.
 25. A human cell to which the method of claims 1 has been applied, or the progeny of said human cell.
 26. A human cell to which the method of claim 13 has been applied, or the progeny of said human cell.
 27. A human cell to which the method of claim 15 has been applied, or the progeny of said human cell.
 28. A method for enhancing transport of a drug through the gastrointestinal tract, said method comprising orally administering said drug in a composition that comprises a transport-enhancing protein, said transport-enhancing protein selected from the group consisting of human serum albumin (HSA), clusterin, T-cell surface glycoprotein CD5 precursor, HSP84, and Ca2+pla2, or a homolog that has at least 80% amino acid identity with said transport-enhancing protein over a length of said transport-enhancing protein identical to the homolog.
 29. A method of claim 28 wherein the homolog has at least 90% amino acid with the transport-enhancing protein over a length of the transport-enhancing protein identical to the homolog.
 30. A method of claim 28 wherein the transport-enhancing protein is selected from the group consisting of human serum albumin (HSA), clusterin, T-cell surface glycoprotein CD5 precursor, HSP84, and Ca2+ pla2.
 31. A method to facilitate intracellular trafficking of an antigen that has been orally delivered by itself or as part of a composition or particle, said method comprising administering a protein selected from the group consisting of calreticulin, rab family proteins and ribosomal proteins.
 32. A chimeric protein comprising the amino acid sequence for calreticulin, rab family proteins and ribosomal proteins and the amino acid sequence for a second polypeptide.
 33. A method of administering a polypeptide, where said polypeptide is part of a chimeric protein of claim 32, and wherein said chimeric protein is orally administered.
 34. A method of delivering a vaccine to a target cell, said method comprising utilizing as the target cell a Peyer's patch cell in which a normally upregulated protein or mRNA is further upregulated.
 35. A method of claim 34 wherein the Peyer's patch cell is an M Cell.
 36. A method of claim 1 wherein the protein is selected from the group consisting of clusterin, T-cell surface gicoprotein CD5 precursor, HSP84, Ca2+ dependent phospholipase A2 precursor, and the ribosomal proteins, S12, S11, L12, L11, S29, S19, L21, L19, L13, L44, and L36.
 37. A method of claim 34 wherein the upregulated protein is selected from the group consisting of clusterin, T-cell surface glycoprotein CD5 precursor, HSP84, and Ca2+ dependent phospholipase A2 precursor and the mRNA is for a protein selected from said group.
 38. A method of claim 1 wherein the protein is selected from the group consisting of cyclin D1, PLC-L, GRB2, ERK3/MAPK6, ERK1, ERK3, JNK2, CD40, CRAF1, C-MYC, PT-α, IL-R, CD40, C-MYC, PKC-α, GSTA1, GATA-2, PLGF, ezrin, HGF activator, hepatocyte growth factor-like protein, NCAD, MNDA, LHX1, TIE-1, NCAML1, CD104, CD44, SRC1, NMDA, TKT, ephrin (type A), Sp1, RAB proteins, PKC, TIR, Jak3, EGR-1, TNK1, CAMK IV, HSP40, HSP70, HSP60, HSO27, fMLP-related receptor, HSP27, glutaredoxin, CREB, gadd153, XPG, XPD, ubiqitin-conjugating enzyme, RAD23, cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4, TIE, NCAML1, α3β1 integrin, CD11C antigen, CD104 antigen, CD44, NMDA, TKT, ephrin (type A), and Sp1, a RAB protein, PKC, TfR, bcl-x and caspase-9.
 39. A method of claim 34 wherein the upregulated protein is selected from the group consisting of cyclin D1, PLC-L, GRB2, ERK3/MAPK6, ERK1, ERK3, JNK2, CD40, CRAF1, C-MYC, PT-α, IL-R, CD40, C-MYC, PKC-α, GSTA1, GATA-2, PLGF, ezrin, HGF activator, hepatocyte growth factor-like protein, NCAD, MNDA, LHX1, TIE-1, NCAML1, CD104, CD44, SRC1, NMDA, TKT, ephrin (type A), Sp1, RAB proteins, PKC, TIR, Jak3, EGR-1, TNK1, CAMK IV, HSP40, HSP70, HSP60, HSO27, fMLP-related receptor, HSP27, glutaredoxin, CREB, gadd153, XPG, XPD, ubiqitin-conjugating enzyme, RAD23, cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4, TIE, NCAML1, α3β1 integrin, CD11C antigen, CD104 antigen, CD44, NMDA, TKT, ephrin (type A), and Sp1, a RAB protein, PKC, TfR, bcl-x and caspase-9. and the mRNA is for a protein selected from said group.
 40. A method of claim 1 wherein the protein is selected from the group consisting of an 1 L-2 receptor, a gamma c chain of an IL-2 receptor, intereron-γ, and a C-C chemokine.
 41. A method of claim 34 wherein the upregulated protein is selected from the group consisting of an IL-2 receptor, a gamma c chain of an IL-2 receptor, intereron-γ, and a C-C chemokine and the mRNA is for a protein selected from said group.
 42. A method of claim 1 wherein the protein is selected from the group consisting of cyclin D1, PLC-L, GRB2, ERK3/MAPK6, ERK1, ERK3, PKC-α, GSTA1, GATA-2, and PLGF.
 43. A method of claim 34 wherein the upregulated protein is selected from the group consisting of cyclin D1, PLC-L, GRB2, ERK3/MAPK6, ERK1, ERK3, JNK2, CD40, CRAF1, C-MYC, PT-α, IL-R, PKC-α, GSTA1, GATA-2, and PLGF and the mRNA is for a protein selected from said group.
 44. A method of claim 1 wherein the protein is selected from the group consisting of a RAB protein, PKC, and TfR.
 45. A method of claim 34 wherein the upregulated protein is selected from the group consisting of a RAB protein, PKC, and TfR and the mRNA is for a protein selected from said group.
 46. A method of claim 1 wherein the protein is selected from the group consisting of Jak 3, EGR-1, TNK1, and CAMK IV.
 47. A method of claim 34 wherein the upregulated protein is selected from the group consisting of Jak 3, EGR-1, TNK1, and CAMK IV and the mRNA is for a protein selected from said group.
 48. A method of claim 1 wherein the protein is selected from the group consisting of HSP40, HSP70, HSP60, HSO27, fMLP-related receptor, HSP27, glutaredoxin, CREB, gadd 153, XPG, XPD, ubiquitin, conjugating enzyme, RAD 23, and ataxia telengiectasia.
 49. A method of claim 34 wherein the upregulated protein is selected from the group consisting of HSP40, HSP70, HSP60, HSO27, fMLP-related receptor, HSP27, glutaredoxin, CREB, gadd 153, XPG, XPD, ubiquitin, conjugating enzyme, RAD 23, and ataxia telengiectasia and the mRNA is for a protein selected from said group.
 50. A method of decreasing the levels of a protein in a Peyer's patch cell, said method comprising delivering to said cell a DNA molecule coding for an anti-sense nucleic acid molecule, a ribozyme nucleic acid molecule, an RNA interference nucleic acid molecule (RNAi), said anti-sense molecule, ribozyme or RNAi nucleic acid being complementary to a sequence of at least 10 nucleotides of the mRNA for said protein, wherein absent said anti-sense molecule, ribozyme or RNAi nucleic acid, the levels of said protein or its mRNA is less than in a non-Peyer's patch cell.
 51. A method of increasing the extent to which the function of a protein is carried out in a Peyer's patch cell, said method comprising delivering to said cell a nucleic acid coding for said protein, wherein absent said delivery, the level of said protein or its mRNA is greater in said cell than in a non-Peyer's patch cell.
 52. A chimeric protein that comprises two or more segments, each of said segments enhancing a different step in the peptide transport process, said steps selected from the group consisting of binding to a cell, transporting the peptide into the cell, transporting the peptide through the cell, and transporting the peptide out of the cell.
 53. A chimeric protein of claim 52 wherein one of the segments binds to the cell.
 54. A chimeric protein of claim 52 wherein one of the segments is a protein that is more prevalent in a Peyer's patch cell than in a non-Peyer's patch cell.
 55. A chimeric protein of claim 52 wherein the cell is a Peyer's patch cell.
 56. A chimeric protein of claim 55 wherein the cell is an M cell.
 57. A method of targeting a composition or delivery vehicle to a Peyer's patch cell said method comprising utilizing a composition or vehicle that contains a protein ligand that will specifically bind to a protein that is up-regulated in Peyer's patch cells.
 58. The method of claim 57 wherein the composition or delivery vehicle comprises a drug or antigen.
 59. A method of selecting for a ligand that will selectively bind to a target in a Peyer's patch cell, said method comprising contacting a phage library with a protein that is upregulated in Peyer's patch cells.
 60. The method of claim 59 wherein the protein is attached to a solid substrate.
 61. A method of claim 1 wherein the protein is selected from the group consisting of HGF activator, ezrin, NCAD, MNDA, and LHX1.
 62. A method of claim 34 wherein the upregulated protein is selected from the group consisting of HGF activator, ezrin, NCAD, MNDA, and LHX1, and the mRNA is for a protein selected from said group.
 63. A method of claim 1 wherein the protein is selected from the group consisting of cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4, TIE, NCAML1, α3β1 integrin, CD11C antigen, CD104 antigen, CD44, NMDA, TKT, ephrin (type A), and Sp1.
 64. A method of claim 34 wherein the upregulated protein is selected from the group consisting of cadherin 2, neural cell adhesion molecule, integrin alpha 3, leukocyte adhesion glycoprotein p150, integrin beta 4, TIE, NCAML1, α3β1 integrin, CD11C antigen, CD104 antigen, CD44, NMDA, TKT, ephrin (type A), and Sp1, and the mRNA is for a protein selected from said group.
 65. A method of promoting enterocyte-M cell conversion, said method comprising orally administering an antigen, antigenic composition, or antigen-carrying particle to a person and either simultaneously with, or prior to, said administration, also orally administering a bacteria, or pro-biotic yogurts, or bacterial component to said person. 